Outsourcing Apple IPad Production Research Paper

Redistributing Apple IPad Production - Research Paper Example Apple’s IPad is one of the items, which was initially created in the United State, however its creation has presently been redistributed to oversea enterprises situated in North Korea and China. So as to comprehend the nuts and bolts of redistributing procedures, this paper gives a cost separate of procedures associated with the creation of Apple IPad, both in the United States and contracting oversea nations. It likewise examines the points of interest and inconveniences of redistributing IPad creation to oversea firms. As a major aspect of this paper, some lawful and moral issues that emerge because of re-appropriating Apple IPad are likewise talked about. Watchwords: re-appropriating, Apple IPad, and economy Introduction Apple iPad is a cutting edge bit of electronic that performs the vast majority of the capacities simply like a PC. In view of its light weight and effectiveness, it is exceptionally fantasized by individuals who need to stroll around with their PCs, while p laying out specific assignments (OGrady, 2009). The appeal for this item, both inside and outside the United States, has constrained the Apple Inc. to bring about huge transportation costs in order to arrive at its neighborhood and global clients, something that has fundamentally expanded the expense of creation. So as to restrain cost of creation coming about because of importation of material, delivery of the items and work costs, Apple Inc. understood that redistributing of IPad creation to abroad firms, particularly with an enormous number of clients, will altogether decrease its expense of creation and amplify benefit (Hill and Jones, 2009). Samsung Company situated in North Korea, and some other electronic firms situated in China are some of firms that are as of now delivering Apple IPad. These organizations produce Apple IPad and disperse them to both neighborhood and worldwide clients. This implies less expense of transportation is brought about when this item is offered to the neighborhood clients more than if it was delivered in the United States, and sold in either North Korea or China (Schniederjans, 2005). Cost Break-down for the Production of Apple IPad Material, transportation and work costs are the key determinant of Apple IPad creation cost. Mac iPad 2 was the most discussed shopper electronic that was discharged into the market in 2011 (Sparks, 2011). The value separate expense for assembling 32GB GSM/HSPA form (From iSuppli) in the United States and oversea

Effect of Presidential Elections on Businesses and Business Leaders

As the expression goes, â€Å"the just thing that is consistent in life is change†. In the event that we don't know of anything, we ought to make certain of the way that the result of the up and coming presidential political decision will achieve a change to the American economy. This effect will spread over all segments of the economy including U. S. organizations and business pioneers. The inquiry, notwithstanding, is what the effects predictable are? I might want to state that the effects would be reliant on the presidential applicant that successes the political race. On the off chance that we are to pass by what they have just featured as their arrangement whenever chose, Barack Obama winning the political race probably won't be uplifting news for U. S organizations and business pioneers the same. In his battle, he clarified that his organization would offer tax reduction to middleclass families and would build the expense of CEOs and companies. In the event that we are to decide from this, we should state that while this would be uplifting news to the normal American, it is the CEOs and the U. S. organizations who might exposed the heaviness of the expense plan. Aside from this, Obama says he would consider organizations answerable for benefits and work conditions. This may be a back breaker for U. S organizations and business pioneers overall. Then again, on the off chance that it the political decision closes with Senator John McCain rising triumphant, at that point organizations and Business pioneer ought to be prepared for a good residency. Aside from the way that Senator McCain vows to cut corporate duty, he asserts that his organization would be in favor of U. S organizations and not in their manner. He vowed to slice corporate duty so as to keep up work of laborers in these organizations and he appears not to be worried about U. S organizations utilizing their assets to grow in different locales like Senator Obama. In the event that we are judge from this, I feel that U. S organizations and business pioneers would prosper and extend on the off chance that He expect office. Immediately, the core of interestingly, Senator Obama monetary arrangement would support the middleclass laborers while it could be at the drawback of U. S organizations and business pioneers. Then again, Senator John McCain’s monetary arrangement appears to be ideal for U. S organizations and business pioneers as he considers them to be significant to keeping the employments of Americans.

Online Essay Help For Tested Subjects

Online Essay Help For Tested SubjectsAdding to the total understanding of each science understudy, the online contributions of the Pittsburgh Supplement Essay Help Center assistance understudies in a few perspectives. Regardless of whether understudies are seeking after simply the essential STEP and MCAS courses or they are looking for supplemental assistance with extra subjects, they can rely on the web assets gave by the Center to be an advantage. Since such a large number of various tests materials are offered on the web, understudies can get all that they need.Students who complete the online courses at the Pittsburgh Supplement Essay Help Center will approach a wide assortment of material for every one of the tests. The Center offers address notes and the supplemental data expected to step through the exams, just as training tests and their relating exercise plans. Actually, the Center offers too much of study materials. Understudies will discover reference materials, aides and instructing helps for each subject offered by the Center.Aside from the online assets offered to understudies, the Center likewise gives various decision and article tests. It is critical to take note of that not all materials accessible online are pertinent to each subject. Be that as it may, understudies will have the option to survey and analyze the examples provided.Students should ensure that they see how to get ready for tests and how to respond to addresses that are introduced during tests. Doing so is basic to score well on the tests. It is imperative that understudies see how to discover and utilize article tests, answer numerous decision questions, and plan for tests, expositions, and understanding appreciation. It is anything but difficult to do these things if understudies get familiar with the basics.Upon increasing an essential comprehension of what exposition tests are and how to utilize them, understudies can without much of a stretch find and use them all through th e Center. The Center offers instances of paper points, a prologue to the themes, and tests for different classifications of material that is expected to finish the entire scope of courses. There are additionally aides and materials for the MCAS, STEP, and Physics exam.Many understudies may not recognize what kinds of material will be secured by the various tests, however it is basic to realize the Essay tests and how to utilize them. The Center gives materials that spread both the STEP and MCAS, so understudies will be furnished with instances of the distinctive exposition points and instances of test substance that understudies will be required to compose. There are likewise materials to assist understudies with seeing how to utilize exposition tests and models, however the rules used to plan the right essay.In expansion to showing helps, the Center offers numerous decision and paper tests for all segments of the tests. The entirety of the exercise plans are efficient and offer a b rief look into the manner in which understudies can get ready for tests and complete them well. Understudies can without much of a stretch compose their time when taking numerous decision and exposition tests by utilizing the example plans provided.The Pittsburgh Supplement Essay Help Center offers test prep materials for both the STEP and MCAS tests. For understudies who are searching for some help with test subjects and models, there are numerous materials accessible. By utilizing the online exercise plans, online instructional exercises, and understanding materials, understudies can experience the utilization of Essay tests, utilize the data, and increase a superior comprehension of their learning encounters and capacities. They would then be able to utilize these devices and methods to plan and structure a paper dependent on the material required and the testing goals.

The Importance of UGA Essay Samples

The Importance of UGA Essay SamplesUGA exposition tests are a basic piece of any examination task. So as to pass an UGA article, it is important to have the correct sort of exposition tests. A basic thing that you ought to know about before presenting an article for assessment is that the organization is worried about human communication.The thought is to see how the teacher is managing his understudies. On the off chance that you expect to get the best grades from your educator, you have to figure out how to compose an intriguing and intelligible paper. The article ought to have the option to chat with the educator and he/she will have the option to tell whether you are a normal understudy or a decent understudy or a splendid student.If your organization is basic, at that point it is anything but difficult to track down defects in the structure of the exposition. The paper test contains the letter of the teacher. It is hard to track down blemishes in the letter of the professor.The letter of the teacher is one of the primary pointers of the school marks. The letter of the educator is composed inside a day. Understudies must be cautious while searching for the most appropriate article tests. There are numerous English composing test suppliers that offer example exposition for free.You can likewise pick a program from the market for doing a paper for assessment. There are numerous colleges and schools that offer exposition tests to understudies. The paper tests can be utilized by the understudies as their investigation guide.The school expositions can be utilized for taking the last assessments. The school articles are significant and the papers ought to be composed well and ought to contain the necessary catchphrases. The paper ought to be composed utilizing the punctuation decides that were referenced in the book.The writer of the exposition must not neglect to incorporate the initiation explanation and the title. The article tests can be utilized so as to rev ise your own exposition if the first form is written in an indistinct way. It is exceptionally hard to adjust the essay.If the first content is long, at that point it is extremely hard to be modified in short. Article tests are accessible on the web and it is exceptionally simple to gain admittance to these examples. It is imperative to guarantee that you have done the update as per the particulars of the paper tests.

Term Paper Assistance

Research project AssistanceThere are numerous incredible alternatives for research paper help. The web can be an incredible asset for research, discovering progressively about explicit administrations and setting aside cash. Numerous organizations that offer this kind of help likewise give help increasingly conventional types of help too. For instance, many utilize the Internet to help research the best school for a youngster to join in, alongside aiding the investigating of exceptional needs students.You can discover a ton about various organizations that offer paper help. You can likewise get familiar with a great deal about the a wide range of parts of the paper help process. This is an exceptionally basic procedure and you don't have to know anything about the procedure but to comprehend what the points of interest and impediments are of a paper assistance.One of the things you can discover by investigating the paper help process is the idea of the work. There are various kinds o f help. Some are exceptionally time touchy and require a lot of time and arranging. Other paper help might be increasingly summed up in their necessity. You can pick a paper help organization that has the particular paper that you have to guarantee that you complete it correctly.While investigating the paper help, you will likewise find out about other data that is engaged with the paper help process. You can discover what the paper will be utilized for and you can likewise realize what the charge structure is. There are numerous expenses engaged with these papers. These expenses will change from one sort of paper to another.It is likewise critical to know the kinds of paper that are being utilized and how they are being utilized before you pick a help. This will make it simpler for you to look at the different alternatives accessible. You will likewise have the option to figure out which sort of paper you need in the first place.When youare working with a paper help organization, y ou will find that the procedure is extremely simple. You will find that the paper is done rapidly and with top notch results. When you have completed the paper help, you will be given input on your paper by the administration. The input will permit you to settle on choices about how the paper will be used.In most cases, the paper help organizations will give you a print out of the paper that you will submit to your educator. You will have the option to perceive what the paper resembles and the style of paper. You can check whether you are getting the quality paper that you need and you can perceive how the paper is being utilized by your professor.You can likewise discover how the paper help was utilized by your educator. This is significant in light of the fact that you need to ensure that the paper help was compelling and didn't hurt your evaluations. You need to ensure that you are getting help that will work for you. Paper help can be a straightforward procedure that is definite ly justified even despite your time and exertion.

Empathy Essay Topics

Sympathy Essay TopicsEmpathy exposition points are accessible in pretty much every subject that you can consider. While you may discover a great deal of things in your normal course reading, there are an assortment of different assets that you can use to concoct more thoughts for your own essays.Sometimes, sympathy exposition themes are not in any manner not quite the same as the subject that you are expounding on. For instance, on the off chance that you are composing an exposition about a book and how it can influence the peruser here and there, you could generally turn your attention on the book itself.However, while a portion of the thoughts referenced in the subject of your paper might be in any event halfway dependent on the book, most sympathy article themes are only straight out of the creative mind of the author. You should think about the tales of individuals who have had incredible accomplishment with the subject of your article or you could utilize a portion of the models from the book as a component of your argument.While the models and different thoughts from the book are extraordinary, a few people lean toward sympathy paper themes that emphasis more on the author instead of the subject. This is the point at which the connection between the author and the subject becomes an integral factor and this is the kind of exposition that gives the crowd a more intensive glance at the essayist just as the subject.Some individuals like to utilize compassion article themes as an audit. The subject of the paper is something that the peruser ought to identify with on the off chance that they are to have any enthusiasm for understanding it and the relationship that the exposition has with the topic makes it simple for the peruser to relate to the essay.Many individuals likewise decide to compose compassion article themes that manage a wide range of points. For instance, rather than managing the subject of the significance of a show-stopper, you could utilize th e topic of being a victim.Some people decide to compose sympathy essaytopics utilizing amusingness and light incongruity. This makes the exposition exceptionally engaging and furthermore makes it simple for the crowd to relate to the topic as well.In expansion to these different points, sympathy article subjects can likewise be about an individual's relationship with a thing that they appreciate. A sonnet might be found out about a relationship that the writer is in with his preferred leisure activity or a novel might be found out about a relationship that the writer is in with his adoration for writing.

Writing in Fifth Grade Reasoning and Writing Skills

Writing in Fifth Grade: Reasoning and Writing SkillsIn fifth grade, most understudies are prepared to compose an unmistakable and solid scholarly paper. A few understudies will begin by contemplating the subject of their exposition as though it were a fifth grade point. This is the place the establishment for the subject of their paper can be laid.Students will be generally intrigued by the subject of the school year and its present news occasions. They will need to find out about the recent developments influencing their training. The news occasions of the previous year will be new in their psyches so they can take in new data. It is essential to have a decent subject for the essay.Once the theme has been settled on, the author should write in the best possible style of their composing style. Numerous understudies battle with this part of their exposition composing since they do not have the information or the trust in their own composing abilities. It is basic that the author utili zes the correct arrangement so as to get the thoughts across appropriately. This is the place the fifth grade composing tests can be useful.It is critical that the author make their subject and their composing style identified with the recent developments of the school year. It is significant that the understudy utilize their experience to clarify why a theme is significant or why they trust it ought to be composed. The essayist ought to have the option to distinguish what it is they are attempting to state and afterward compose it in a manner that can be effectively comprehended. Numerous understudies are uncertain of their own abilities and may not have the option to write in an unmistakable and compact manner.Beginning writing in the fifth grade comes down to having the option to utilize the various structures that are generally utilized in the creative cycle. The first of these structures is the sentence. The sentence can likewise be characterized as a compartment for a couple o f words and it isn't unexpected to utilize this structure to permit the peruser to assimilate more information.A understudy should have the option to recognize their point before they compose their exposition. The article author must compose their considerations such that will empower them to express reality. There are numerous approaches to achieve this objective. A few techniques that are regularly utilized include:Writing articles can be utilized from numerous points of view. An understudy will utilize their composing aptitudes so as to recount to a story and instruct the peruser about something they feel unequivocally about. The story can be composed to move the peruser and they can be enlivened to activity by their experiences.Research papers can be composed to respond to the subject of a specific issue. The author would then be able to include the realities and subtleties of what they know to help move the peruser to activity. The author should attempt to keep the examination straight so the perusers don't have any disarray.

What Is Good Resource Materials For Assignments

What Is Good Resource Materials For Assignments?If you are a paper author, it is best that you utilize the entirety of the accessible assets for composing great scholarly papers. The best method to move toward composing a decent exposition is to exploit these accessible assets, so you will have the option to invest in a great deal of energy into your work.Various research papers on the web offer some article tests. These can give you a thought regarding the different things that you ought to remember for your task. With a rundown of fundamental rules, you can begin and expect a top notch output.It isn't anything but difficult to compose a decent article, yet it is basic to have brilliant explanatory capacity. For this, you can peruse some example articles composed by different experts from various colleges. This can give you the thoughts regarding what makes a fantastic essay.To get hold of some example papers, attempt some regular pursuit terms on the web. You can likewise check onl ine for test expositions, in the event that you need to peruse through the substance of those papers. The fundamental point here is to have more thoughts regarding the different assets that are accessible for exposition writing.You can likewise visit gatherings or converse with partners who have partaken in rivalries to look at crafted by the scholars who have utilized different examination papers. It is in every case great to recall that there are numerous capable scholars out there, and you can discover them with assistance from online resources.Your information about the nuts and bolts of language and utilization of accentuation will go far. By utilizing these assets, you will get a thought of how you should structure your sections and sentence structure. You can likewise discover a great deal of data from these sites.If you truly need to get hold of some asset material, ensure that you have your point prepared. Along these lines, you will have the option to peruse the example ar ticles until you get to the one that coordinates your requirements. Likewise ensure that you have just invested in a ton of energy into your examination paper.If you are a tenderfoot, you can ask help from your folks or some other relatives, or maybe you can look for the assistance of some additional hands. Discover increasingly about the accessible assets for article composing. Doing this will assist you with improving in your task.

Causal Argument Essay Samples

Causal Argument Essay SamplesIf you have a powerful contention and are considering composing an article, take a stab at utilizing causal contention exposition tests. A causal contention isn't about your assessment, but instead a sensible contention to help the realities in your contention. It is imperative to get the realities right in the event that you need to help your contention with information and facts.To make your contention persuading, you have to clarify unmistakably what your contention is about. To do this, ensure you research the theme well and discover realities that help your contention. For instance, in the event that you are attempting to put forth the defense for the death penalty, you can refer to examines that exhibit that wrongdoing diminishes because of the death penalty. Your causal contention paper tests must have the option to help your facts.After you have gathered your information and realities and you are prepared to compose your contention, you will need to realize how to structure your causal contention. Ensure the subject of your contention is appropriately upheld by the realities you have accumulated. Utilizing appropriate section structure can help you effectively get your realities across.When composing a causal contention, don't begin with a contention for one side. Rather, start with an announcement supporting the realities and exploration that help your contention. On the off chance that you end up concurring with somebody who underpins your perspective, present the way this is what is being contended for by the other individual. You can likewise examine the 'way' that the contrary perspective has a counterargument.Write your causal contention as an exploration paper. You should layout what is being introduced, how it is upheld, and why it is being introduced. Each passage ought to have a proposal explanation or first sentence that depicts the primary concern or contention of the paragraph.The second sentence of each section should offer a counterargument to the fundamental contention. Try not to remember the entirety of the counterarguments for one section; they ought to be introduced independently. To keep your passage sections sorted out, separate them by the amount of contentions presented.Ending your section with an inquiry or articulation is fitting for passage two. For instance, in section two, you may solicit 'What is the finish of the passage?' If you can't respond to the inquiry in the passage, you may end your section with a sentence requesting that your peruser do some further research. Don't generally take the side of the contention in your passage; simply make your contention understood with the goal that you can introduce your counterargument.As you can see, when composing a causal contention, you ought to abstain from taking part in banter and on the off chance that conceivable, put forth the defense for your position and afterward present a contention for the restricting position. Comp osing a decent contention involves information and a decent contention should bolster the realities. With some training, you will find that it is anything but difficult to compose a convincing contention.

College Paper Reviews - How to Find the Best Deals

School Paper Reviews - How to Find the Best DealsWhen you are attempting to discover what sort of paper you requirement for your group, it is a smart thought to peruse school paper surveys. In the event that you glance around in the correct spots, you will have the option to discover what you need at the best value possible.First, when you take a gander at surveys of paper items, recollect that it isn't generally so straightforward. There are a wide range of sorts of papers for a wide range of necessities. In view of this, you can utilize the surveys to discover what you need.With this as a primary concern, search for school paper audits that you can access for nothing. Search for surveys in places like your nearby book shop. While you probably won't discover anything explicit there, you ought to have the option to discover something with a creator's name. That implies you can go through the name to look their audits of the paper that they have reviewed.Another significant factor in getting your school paper surveys is cost. Obviously, you will need to get the most ideal arrangement for your paper buy. You would prefer not to pay as much as possible for an excellent paper. Rather, you need to get the best arrangement possible.In expansion, you should attempt to search for surveys that offer you the alternative to purchase a pre-owned paper. Ordinarily, individuals will get utilized or separated papers. In these cases, you can get your hands on the paper cheaply.Of course, you ought to likewise keep your school paper audits state-of-the-art. By staying up with the latest, you will have the option to locate the most recent patterns and new innovation. This is something that you may not discover on the off chance that you remember your audits to yourself.Keep that not all papers are of a similar quality, yet there are a wide range of sorts of paper that you can use for your own needs. Ordinarily, the nature of the paper is the thing that has the effect. Along thes e lines, it is essential to get the correct paper for your needs.As you can see, you should see school paper audits to enable you to discover what you have to get the paper that you need. Keep in mind, utilizing the surveys will give you the best odds of finding an arrangement that will profit you the most.

Three Examples of Common Core Essay Samples

Three Examples of Common Core Essay SamplesIf you have not yet settled on a typical center paper, there are three diverse example papers that you can use as a rule. The most significant piece of any article is the data that you put in it. At the point when you don't know what sort of exposition to compose, you ought to do some exploration regarding the matters you might want to compose about.One of the principal things that you ought to do when composing a typical center paper is to connect with your nearby school locale. In numerous schools, composing a paper for a state sanctioned test has become standard practice. The objective of these tests is to check an understudy's latent capacity and help them figure out where they remain according to different understudies their age.The principle goal of these tests is to give a decent impression of what understudies realize at school. You may find that there are a few themes that you feel emphatically about yet that others don't. If so, yo u can generally present your paper to each of the three of the national evaluation offices, including the ACT and SAT.When composing a typical center exposition, you have to realize how to come to your meaningful conclusions succinctly and obviously. Each section should end with an inquiry and answer at the base of the page. The last sentence ought to be immediate and contain no unessential words or a ton of jargon.In the main passage, you ought to acquaint the peruser with what your identity is and what you need to talk about. You ought to have the option to pass on the significance of what you are attempting to clarify in your first sentence. The principal section should end in an inquiry or answer that follows the presentation paragraph.In the subsequent passage, you ought to have the option to take the peruser back to the main section. You ought to likewise have the option to furnish the peruser with an answer. The last passage should end in an inquiry or answer that is legitima tely following the presentation paragraph.The presentation and the end are two of the most significant pieces of any paper. On the off chance that you are uncertain about how to make a presentation, you can take a gander at models that have been composed for a few distinct sorts of papers. At the point when you are prepared to compose the principal section, simply take a gander at three models and compose yours from there.Using these three examples, you will have the option to make a typical center article that is both convincing and complete. This is the last draft that you should go in to the school locale. When you send it in, you will realize that you have composed an extraordinary exposition.

Essay Topics - Important Facts About Essay Topics

Article Topics - Important Facts About Essay TopicsIf you need to compose a fruitful exposition on Thomas Paine's Rights of Man, you need to think of a few intriguing points. Be that as it may, when you are headed to composing, you should realize how to figure out which subject you need. This will assist you with getting your theme right and make the composition of your article more fruitful.You should realize what the subject is and on the off chance that you are the person who will compose the exposition, you ought to likewise know whether it is required to incorporate the subject or not. You should know this since you should know the subject so you can compose the exposition with the information that you need. In any case, with regards to the point, there are various kinds of subjects that you might need to use as the subject of your essay.The right theme may rely upon what you need to expound on. For instance, you need to expound on the securities exchange of USA and the stocks t hat are exchanged that showcase. You can utilize this theme as a subject of your exposition in the event that you need to illuminate the perusers that there are sure stocks that they ought not overlook in their ventures. In any case, the most significant thing is to compose an instructive article, which implies that you should be proficient about what you are writing.In expansion, the subject that you have to think about Thomas Paine's Rights of Man may change contingent upon what you need to do with your theme. Be that as it may, when you need to make your theme intriguing, you should be inventive and exceptional to make your subject fascinating and to make your point stand apart among others. Truth be told, the subject of your exposition will decide the point that you can use.If you need to compose an article on Thomas Paine's Rights of Man, at that point you should comprehend what the subject of your paper is and furthermore in the event that it is obligatory to incorporate the s ubject of your exposition or not. This is on the grounds that you need to compose an amazing article that will intrigue the perusers and give them a thought of what you are expounding on. For this, you ought to have the option to investigate well and realize what the point is before you start writing.It isn't anything but difficult to compose an intriguing exposition that will premium the perusers since you should have the correct subject that will give the theme an ideal possibility of making the paper appealing. In the event that you need to compose an exposition on Thomas Paine's Rights of Man, you should comprehend the subject and afterward you can compose it without agonizing over what the point is and what sort of theme you are expounding on. There are such a large number of themes that you can use as a subject of your exposition and you can without much of a stretch pick the point contingent upon what you need to expound on. In the event that you need to know the subject of y our paper, you can utilize the Internet for getting more data about the topic.The Internet is the place you can get the most recent data about the theme that you need to expound on since this is the place you can get the most recent news about the point. Beside this, you can discover the point data in books and magazines that you can peruse. In this way, you can spare yourself the time and exertion of getting the data and simply depend on the Internet to discover the information.In expansion, you should be innovative when you are considering what subject you will use for your paper. For instance, in the event that you need to expound on the securities exchange of USA, you can utilize the subject that is 'Thomas Paine's Rights of Man'. In the event that you need to think about the point, you can look for it online by simply composing for the sake of the theme in Google or some other web crawler.

Important Facts About Thesis Writing

Significant Facts About Thesis WritingAs you are setting out on your doctoral investigation, proposal composing is an unquestionable requirement to handle. It isn't just the ace's theory that merits examining in the scholarly community, as it can likewise be the first. Proposition is the term given to the archive which an understudy is finishing to make the person in question a doctoral scholar.Even if your theory isn't acknowledged by the college, you despite everything need to submit it since it will be a solid point for your application. Theory writing in detail is significant and an essential piece of the study.To sum up, the postulation is a paper that will fill in as a proof that you have finished all your scholarly work. By doing this, it demonstrates that you have concentrated well and have earned the doctorate certificate. Postulation Writing administration is an expert that can deal with this work for you. The individual will compose the proposal for you as indicated by you r desires.Thesis composing must be exhaustive in light of the fact that your doctoral examination is extremely noteworthy and imperative to you. It is consequently exceptionally fundamental that you know about what the theory is about. You ought to know about the subtleties with the goal that you don't get deceived and confounded about the entire thing.Thesis composing is significant for you as a researcher, since it will fill in as a proof that you have done all the vital concentrating so you could compose the proposition for yourself. You should take care that your postulation won't be an exercise in futility, since it is the one which will give you your PhD. Composing a theory for yourself is significant on the grounds that you will pick up validity and the regard of different understudies in the exploration group.If you have an ace's postulation to give, at that point your thesis will be a different record that you should get ready. Proposal composing must be immaculate and mode rn. You ought to invest energy to ensure that you are completely happy with your composing skills.Thesis composing must be introduced in various scholarly diaries and distributions, since it is your official record and along these lines ought to be done in an appropriate way. You have to submit it for your conventional graduation service and that is the reason it is significant that you have a dependable expert to do your proposal writing.A great college work or an undergrad theory will require a ton of exertion from the understudy. Along these lines it is critical that you are furnished with information and aptitudes expected to deal with the undertaking. Utilizing an accomplished proposal composing administration is the most ideal approach.

Banneker Ap Lang Essay Student Samples

Banneker Ap Lang Essay Student SamplesMy wife bought me a good supply of Banneker Ap Lang essays by David Banner as a gift for my essay writing class. I really enjoyed reading his essays, and I was thrilled to be given a good reference work from him.But the first time I opened one of his Banneker Ap Lang essay student samples, I thought he was writing something else! There were so many mistakes in the spelling and grammar, as well as some grammatical problems, that I couldn't figure out what the author had been taught. And some of the examples he gave me of student writing were complete gibberish!I realized that this was a writer who did not understand how bad grammar can spoil the meaning of your essay. It is not just the grammar that counts, it is the English that counts. For instance, when you are trying to explain a difficult concept to a student, or when you are explaining something for a class, it is very important that you make it clear and simple. You should explain it proper ly, so that the student understands what you are trying to tell them.In my own experience, Banneker Ap Lang by David Banner is a good tool for teaching English grammar. I use it regularly with my students, and it works very well. However, there are certain parts of the manual that he should have explained in more detail.I read some of the Banneker Ap Lang essays that I bought, and I found many spelling and grammar errors. Even though the spelling errors were small, but the grammar mistakes were very large. The author is obviously not a very good English writer.Most of the student essays he writes is too short to be effective, and they can't get the point across, anyway. The articles don't say anything useful. Some examples of his essays were about finding a job, travel planning, personal development, new technologies, conflict resolution, etc.As I was reading his Banneker Ap Lang essay student samples, I noticed that he made spelling mistakes and grammar mistakes that are common to an editor. He also made grammar mistakes, like mixing up the words used in a sentence. It seems like a good writer who knows how to edit should have proofread his own essays.Now I am thinking that I should teach my students how to correct their own essays. Maybe, I should make a book about how to edit essays. I will buy Banneker Ap Lang essay student samples and check them out, to see if he has any flaws.

Glass-ceramics Essay - Free Essay Example

CHAPTER 1 1. Introduction 1.1 Glass-ceramics Glass-ceramics are fine-grained polycrystalline materials formed when glasses of suitable compositions are heat treated and thus undergo controlled crystallisation to the lower energy, crystalline state. It must be emphasised here that only specific glass compositions are suitable precursors for glass-ceramics due to the fact that some glasses are too stable and difficult to crystallise whereas others result in undesirable microstructures by crystallising too readily in an uncontrollable manner. In addition, it must also be accentuated that in order for a suitable product to be attained, the heat-treatment is critical for the process and a range of generic heat treatment procedures are used which are meticulously developed and modified for a specific glass composition. A glass-ceramic is formed by the heat treatment of glass which results in crystallisation. Crystallisation of glasses is attributed to thermodynamic drives for reducing the Gibbs free energy, and the Amorphous Phase Separation (APS) which favours the crystallisation process by forming a nucleated phase easier than it would in the original glass. When a glass is melted, the liquid formed from the melting might spontaneously separate into two very viscous liquids or phases. By cooling the melt to a temperature below the glass transformation region it will result in the glass being phase separated and this is called liquid-liquid immiscibility. This occurs when both the phases are liquid. Hence a glass can simply be considered as a liquid which undergoes a demixing process when it cools. The immiscibility is either stable or metastable depending on whether the phase seperation occurs above or below the liquidus temperature respectively. The metastable immiscibility is much more inmporta nt and has two processes which then cause phase seperation and hence crystallisation; nucleation and crystal growth and spinodal decomposition. The first APS process has two distinguished stages; Nucleation (whereby the crystals will grow to a detectable size on the nucleus) and Crystal growth. Nucleation can either be homogeneous; where the crystals form spontaneously within the melt or heterogeneous; crystals form at a pre-existing surface such as that due to an impurity, crucible wall etc. Many a time the parent glass composition is specifically chosen to contain species which enhance internal nucleation which in the majority of cases is required. Such species also called nucleating agents can include metallic agents such as Ag, Pt and Pd or non-metallic agents such as TiO2, P2O5 and fluorides. The second process is spinodal decomposition which involves a gradual change in composition of the two phases until they reach the immiscibility boundary. As both the processes for APS are different, the glass formed will clearly result in having different morphology to each other. A glass-ceramic is usually not fully crystalline; with the microstructure being 50-95 volume % crystalline with the remainder being residual glass. When the glass undergoes heat treatment, one or more crystalline phases may form. Both the compositions of the crystalline and residual glass are different to the parent glass. In order for glass-ceramics having desirable properties to be developed, it is crucial to control the crystallisation process so that an even distribution of crystals can be formed. This is done by controlling the nucleation and crystal growth rate. The nucleation rate and crystal growth rate is a function of temperature and are accurately measured experimentally (Stookey 1959; McMillan 1979, Holand Beall 2002) The aim of the crystallisation process is to convert the glass into glass-ceramic which have properties superior to the parent glass. The glass-ceramic formed depends on efficient internal nucleation from controlled crystallisation which allows the development of fine, randomly oriented grains without voids, microcracks, or other porosity. This results in the glass-ceramic being much stronger, harder and more chemically stable than the parent glass. Glass-ceramics are characterised in terms of composition and microstructure as their properties depend on both of these. The ability of a glass to be formed as well as its degree of workability depends on the bulk composition which also determines the grouping of crystalline phases which consecutively govern the general physical and chemical characteristics, e.g. hardness, density, acid resistance, etc. As mentioned earlier, nucleating agents are used in order for internal nucleation to occur so that the glass-ceramic produced has desirable properties. Microstructure is the key to most mechanical and optical properties; it can promote or diminish the role of the key crystals in the glass-ceramic. The desirable properties obtained from glass-ceramics are crucial in order for them to have applications in the field of biomaterials. Glass-ceramics are used as biomaterials in two different fields: First, they are used as highly durable materials in restorative dentistry and second, they are applied as bioactive materials for the replacement of hard tissue. Dental restorative materials are materials which restore the natural tooth structure (both in shape and function), exhibit durability in the oral environment, exhibit high strength and are wear resistance. In order for dental restorative materials to restore the natural tooth structure, it is crucial to maintain the vitality of the tooth. . However non-vital teeth may also be treated with restorative materials to reconstruct or preserve the aesthetic and functional properties of the tooth. In order for glass-ceramics to be used for dental applications, they must possess high chemical durability, mechanical strength and toughness and should exhibit properties which mimic the natural tooth microstructure in order for it to be successful as an aesthetic. Glass-ceramics allow all these properties to be united within one material. As mentioned previously, for a glass-ceramic to have the desired properties, the glass is converted into a glass-ceramic via controlled crystallisation to achieve the crystal phase wanted and hence the desired properties it could possibly have. Hence, the glass-ceramic developed allows it to have properties such as low porosity, increased strength, durability, toughness etc which are crucial in the field of dental restorations as it prevents restorative failures which are mainly due to stress and porosity which causes cracks and hence failures. It took many years of research in order to get a material strong enough to be initially used as a dental reconstructive material. However over the past 10-15 years, research has progressed vastly and now glass-ceramics demonstrate good strength, high durability and good aesthetics. The development and processing of glass-ceramics has been focused on particular clinical applications, such as dental inlays, crowns, veneers, bridges and dental posts with abutments. Glass-ceramics are divided into seven types of materials: Mica glass-ceramics Mica apatite glass-ceramics Leucite glass-ceramics Leucite apatite glass-ceramics Lithium Disilicate glass-ceramics Apatite containing glass-ceramics ZrO2-containing glass-ceramics The first commercially usable glass ceramic products for restorative dentistry were composites of mica glass ceramics. Dicor and Dicor MGC were products based on these. According to the mechanism of controlled volume crystallisation of glasses, tetrasilicic micas, Mg2.5Si4O10F2, showing crystal sizes of 1 to 2 m in the glass ceramic were produced. Dicor being amongst them was shaped by means of centrifugal casting methods to produce dental restorations such as dental crowns and inlays. Depending on the different crystal sizes and the corresponding microstructure of the glass ceramic, it was also possible to manufacture glass ceramics for machining applications. [53], Dicor MGC being amongst them. This resulted in the characteristic of good machinability in this type of glass-ceramic to be exploited and results concluded that crystals upto only 2 m in length in the material improved mechanical strength over other materials. Mica-apatite glass-ceramics have been produced in the SiO2-Al2O3-Na2O-K2O-MgO-CaO-P2O5-F system. The main crystal phases are phlogopite, (K,Na)Mg3(AlSi3O10)F2 and fluorapatite, Ca5(PO4)3F. The base glass consists of three glass phases: a large droplet-shaped phosphate-rich phase, a small droplet-shaped silicate and a silicate glass matrix. Mica is formed during heat treatment, as in apatite-free glass-ceramics, by in-situ crystallization via the mechanism of volume crystallization. Apatite is formed within the phosphate-rich droplet phase. Astonishingly, every single apatite crystal possesses its own nucleation site in the form of a single phosphate drop. The glass-ceramic is biocompatible and suitable for applications in head and neck surgery as well as in the field of orthopaedics. Leucite glass-ceramics can be formed by applying the advantage of the viscous flow mechanism. IPS Empress is of this type of glass-ceramic. The material is processed by using the lost wax technique, whereby a wax pattern of the dental restoration such as an inlay, onlay, veneer or crown is produced and then put in a refractory die material. Then the wax is burnt out to create space to be filled by the glass-ceramic. As the glass-ceramic has a certain volume of glass phase, the principle of viscous flow can be applied and hence the material can be pressed into a mould. Surface crystallisation and surface nucleation mechanisms were controlled in order for this type of glass-ceramic to be formed. [42, 54] Consequently, the manufacturing of inlays and crowns developed due to the application of viscous flow mechanism of glass-ceramics in different shapes. The resulting leucite glass-ceramic restorations transluceny, colour and wear resistance behaviour can then be adjusted to those of nat ural tooth.[55] Additionally, the leucite glass-ceramic restorations can be produced by machining with CAD/CAM. IPS ProCAD and IPS Empress CAD are glass ceramics produced via this method. All leucite glass-ceramic restorations are bonded to the tooth structure with a luting material, preferably an adhesive bonding system. The retentive pattern produced on the glass-ceramic surface is particularly advantageous in this respect. It was possible to develop a leucite apatite glass-ceramic derived from the SiO2-Al2O3-Na2O-K2O-CaO-P2O5-F system by combining two different mechanisms, i.e. controlled surface nucleation and controlled bulk nucleation. IPS d.SIGN is amongst these. The glass-ceramic was prepared according to the classic method of glass-ceramic formation: melting, casting to prepare a glass frit, controlled nucleation and crystallization. A two-fold reaction mechanism leads to the precipitation of fluoroapatite, Ca5(PO4)3F and leucite, KAlSi2O6 [42]. SEM pictures show the two-phase crystal content of apatite and leucite in this type of glass-ceramic. Fluoroapatite phase takes the form of needle-shaped crystals whereas the oval areas are the leucite crystals. The clinical application of this glass-ceramic has been proven to be suitable for clinical application as veneering material on metal frameworks for single units as well as for large dental bridges involving more than three units. The first glass-ceramic to be developed was by Stookey et al (1959) which contained Lithium disilicate. [37]. Further research into this field allowed for IPS Empress2 to be developed. This glass-ceramic was developed in order to extend the range of indications of glass-ceramics from inlay and crowns to three-unit bridges, by offering high strength, high fracture toughness and at the same time, a high degree of translucency. Both the flexural strength and fracture toughness of lithium disilicate glass-ceramics are almost three times of those of leucite glass-ceramics. Lithium disilicate glass-ceramic ingot are utilizied to produce the crown or bridge framework in combination with the viscous flow process. To further improve the aesthetic properties, i.e. translucency and shade match, and to optimally adjust the wear behaviour to that of the natural tooth, the lithium disilicate glass ceramic is veneered with an apatite-containing glass-ceramic using a sintering process. In order to meet the demanding requirements of CAD/CAM applications, a lithium metasilicate glassceramic, IPS e.maxwas developed. This material, which is supplied in a typically blue colour, is adjusted by thermal treatment in order to demonstrate a characteristic tooth colour. The range of IPS e.maxproducts also encompasses various apatite-containing glass ceramics that are suitable for both layering material on lithium disilicate glass-ceramic and veneering material on ZrO2 sintered ceramic. The apatite crystal phase of the Ca5(PO4)3F type acts as a component that adjusts the optical properties of the restoration to natural tooth. For this reason, the crystallites are of nanoscale dimension. ZrO2 containing glass-ceramics was the first glass-ceramic developed to be fused to high strength ZrO2 ceramic dental posts. The glass-ceramic contains Li12ZrSi6O15 crystals as the main phase; however different types of crystals are also precipitated in the glassy matrix. ZrO2 has become very interesting not only in the field of medicine but also in dental applications. High-strength and high toughness dental posts, crowns and bridges can be prepared from this material. In order for a dental restorative material to be of clinical success, their most important properties include; high strength, high toughness, abrasion behaviour comparable to natural teeth, translucency, colour, durability) and the processing technologies (moulding, machining, sintering). [56] Furthermore, the material should have good marginal fit with the tooth, biocompatibility, good mechanical properties and low porosity. In addition to the aforementioned properties, the recent requirement for dental restorative materials is for its appearance to be similar to that of a natural tooth. Glass-ceramics have been researched immensely in order to fulfil high standards of function and aesthetics from an early stage. The trend for metal free dental restorations began from the 1970s whereby metal free feldspathic ceramics were reinforced with additional components. Since then, increasing the strength of these materials progressed rapidly by controlling the nucleation and crystallisation of glasses, as discussed earlier. These developments have now led to the introduction of a trend which is focused on achieving exceptional aesthetic results with glass ceramics as metal free dental restorations. Although glass-ceramics exhibit the desired properties for dental restoration, their main drawback is that they are brittle which the main cause of failure is. This is due to either fabrication defects; which are created during production of the glass-ceramic or secondly, surface cracks; which are due to machining or grinding. Therefore when processing the glass-ceramic, care needs to be taken in addition to choosing the suitable method for production for specific compositions of the glass-ceramic in order to improve their mechanical properties. Apart from the use of glass-ceramics for dental restorations, they can also be applied as bioactive materials for the replacement of hard tissue. Bone is a complex living tissue which has an elegant structure at a range of different hierarchical scales. It is basically a composite comprising collagen, calcium phosphate (being in the form of crystallised hydroxyapatite, HA or amorphous calcium phosphate, ACP) and water. Additionally, other organic materials, such as proteins, polysaccharides, and lipids are also present in small quantities. Because bone is susceptible to fracture; there has always been a need, since the earliest time, for the repair of damaged hard tissue. Many years of research has attempted to use biomaterials to replace hard tissue, ranging from using bioinert materials, to bioactive materials such as Bioglass (Hench et al) to Apatite-wollastonite (A-W) glass-ceramics (Kokubo et al) and to calcium phosphate materials. Calcium phosphate based materials have received a great deal of attention in this field due to their similarity with the mineral phase of bone. 1.2 Calcium Phosphate Glasses The application of calcium phosphate material as a bone substitute began by Albee (1920), who reported that a tricalcium phosphate compound used in a bony defect promoted osteogenesis. Many years later, Levitt et al (1969) [65] and Monroe et al (1971) were the first to suggest the use of calcium phosphate ceramics for dental and medical implant materials. Subsequently in 1971, Hench et al developed a calcium phosphate containing glass-ceramic, called Bioglass and demonstrated that it chemically bonded with the host bone through a calcium phosphate rich layer. Furthermore the advantageous properties of calcium phosphate ceramics arose when Nery et al (1975) used a calcium phosphate ceramic for implants in surgically produced infrabony defects in dogs. This demonstrated that the calcium phosphate ceramic was nontoxic, biocompatible, and caused no significant haematological changes in the calcium and phosphorus levels. Since then, a great deal of research into calcium phosphate glass-ce ramics has been conducted as potentially bone substitutes in dentistry. Calcium phosphate based ceramics can be characterised accordingly; Hydroxyapatite (HA, Ca5(PO4)3OH) -tricalcium phosphate (-TCP, -Ca3(PO4)2) Biphasic calcium phosphates, BCP; mixture of HA and -TCP -calcium pyrophosphate (-CPP, -Ca2P2O7) Fluorapatite (FAP, Ca5(PO4)3F) Calcium phosphate based ceramics and their properties have been characterised according to the proportion of calcium to phosphorus ions in the structure. One of the most widely used synthetic calcium phosphate ceramics is hydroxyapatite, Ca5(PO4)3OH, HA and this is due to its chemical similarities to the inorganic component of hard tissues. HA, has a Ca:P molar ratio of 1.67. It has higher stability in aqueous media than other calcium phosphate ceramics. Tricalcium phosphate (TCP) is a biodegradable bioceramic with the chemical formula, Ca3(PO4)2. TCP dissolves in physiological media and can be replaced by bone during implantation. TCP has four polymorphs, the most common ones being and -forms, of which -TCP has received a lot of attention in the field of bone substitutes. Slight imbalances in the ratio of Ca:P can lead to the appearance of extraneous phases. If the Ca:P ratio is lower than 1.67, then alpha- or beta tricalcium phosphate may be present after processing. If the Ca:P is higher than 1.67, calcium oxide (CaO) may be present along with the HA phase. These extraneous phases may adversely affect the biological response to the implant in-vivo. A TCP with a Ca:P ratio of 1.5 is more rapidly resorbed than HA. Hence, -TCP has been involved in recent developments aimed to improving its biological efficiency and its mechanical properties in order for it to be successful as bone substitutes. Mixtures of HA and TCP, known as biphasic calcium phosphate (BCP), have also been investigated as bone substitutes and the higher the TCP content in BCP, the higher the dissolution rate. The crystal structure of HA can accommodate substitutions by various other ions for the Ca2+, PO43 and OH groups. The ionic substitutions can affect the lattice parameters, crystal morphology, crystallinity, solubility and thermal stability of HA. Anionic substitutions can either occur in the phosphate- or hydroxyl positions. Fluorapatite and chlorapatite are common examples of anionically substituted HA. They display a similar structure to HA, but the F and Cl ions substitute for OH. A lot of research has gone into carbonate substituted HA and it has shown to have increased bioactivity compared to pure HA, which is attributed to the greater solubility of the carbonated substituted HA. Thus, recent work has been in progress in order to optimise the production and sintering behaviour of carbonated substituted HA in order for use in biomedical applications. Materials which are bioactive i.e. the ability to bond to living tissue and enhance bone formation, have the following characteristic compositional features: (i) SiO2 contents smaller than 60 mol%, (ii) high Na2O and CaO content, and (iii) high CaO:P2O5 ratio [80]. Although silica based bioactive materials have shown great clinical success in many dental and orthopaedic applications, its insoluble properties has resulted in it as a potential for a long term device and the long term reaction to silica, both locally and systematically is still unknown. [81] Therefore, silica free, calcium phosphate glasses have attracted much interest due to their chemical and physical properties. They offer a more controlled rate of dissolution compared to silica containing glasses, they are simple, easy to produce, biodegradable, biocompatible, bioresorbable due to their ability to completely dissolve in an aqueous environment and have excellent bioactivity, osteoconductivity as well as not causing a n inflammatory response. Due to their properties, especially due to it being bioresorbable, calcium phosphate glasses have been under investigation for several applications in the dental field, particular as implants. However only certain calcium phosphate compounds are suitable for implantation in the body, compounds with a Ca:P ratio less than 1 are not suitable for biological implantation due to their high solubility. The structural unit of phosphate glasses is a PO4 tetrahedron. The basic phosphate tetrahedra form long chains and rings that create the three-dimensional vitreous network. All oxygens in the glass structure are bridging oxygens (BO), and the non-bridging oxygens (NBO) can be formed by including other species such as CaO and Na2O or MgO. Do to the effects of Ca2+, Na2+ and Mg2+ in the glass structure; they are defined as glass network modifiers, which form the glassy state and are called invert glasses. Hence the structure of phosphate glasses can be described using the Qn terminology, where n represents the number of bridging oxygens that a PO4 tetrahedron has in a P2O5 glass, every tetrahedron can bond at three corners producing layers of oxygen polyhedra which are connected together with Van der Waals bonds. When the PO4 tetrahedron bonds with three bridging oxygens, giving the Q3 species, it is referred to as an ultraphosphate glass, which usually consists of a 2D network. When i t bonds to two bridging oxygens, usually in a 3D-network it gives the Q2 species, it is referred to as metaphosphate glass. Further addition gives Q1 species, also called pyrophosphate glass, which bonds only to one bridging oxygen. Finally, the Q0 species do not bond to any bridging oxygen and hence is known as an orthophosphate glass. [14] A large number of calcium phosphate glass compositions have been studied in order to exhibit suitable properties for use in biomedical applications until now, and they can be categorised into four groups: Calcium phosphate glasses containing Potassium Calcium phosphate glasses containing Magnesium Calcium phosphate glasses containing Sodium and Titania Calcium phosphate glasses containing Fluorine and Titania 1) Calcium phosphate glasses containing Potassium: Dias et al (2003) [12] conducted a study and prepared bioresorbable calcium phosphate glass-ceramics between the metaphosphate and pyrophosphate region based on the composition 45CaO-45P2O5-5K2O-5MgO (Ca:P = 0.5). XRD results showed that addition of nucleating agents, K2O and MgO forms bioactive: -CPP and biodegradable phases: KCa(PO3)3, Ca4P6O19 as well as -Ca(PO3)2 which is considered to be non-toxic.[21] DTA results showed two crystallisation peaks, Tp at 627C and 739C and two melting temperatures, Tm at 773C and 896C which was thought to be due to the partial melting of the crystalline phases or residual glass matrix. The glass transition temperature, Tg was observed at 534C. FTIR results showed functional groups corresponding to metaphosphate and pyrophosphate, (PO3)- and (P2O7)4-. These results are in accordance with functional groups of the crystalline phases identified by XRD: -CPP, KCa(PO3)3, Ca4P6O19 and -Ca(PO3)2. Results from degradation studies of these glass-ceramics co nfirmed that by controlling the overall composition of the O:P in the glass, glass ceramics with high degree of degradability can be obtained. The level of chemical degradation observed for these materials is well-above that reported in literature for bioactive ceramics that are clinically used, namely HA and TCP. It was therefore concluded that the incorporation of K2O in glass ceramics increases the solubility and also these calcium phosphate glass ceramics makes them potentially clinically helpful for promoting the regeneration of soft as well as hard connective tissue by allowing the degradability to be controlled. A study by Knowles et al (2001) [92] investigated the solubility and the effect of K2O in the glass-system based on the general composition: K2O-Na2O-CaO-P2O5. The exchange of a mono or divalent ion with another of a similar charge was therefore investigated. The P2O5 and CaO content were fixed, at 45 mol% and the CaO content at 20, 24 or 28 mol% and the ratio of K2O to Na2O was varied from 0 to 25mol %. Results showed, firstly an increase in CaO content caused the solubility to decrease, as expected and confirmed from previous studies. [81,94] Secondly, for all CaO contents there was an increase in solubility, when K2O content was increased. [92] In a recent study by Marikani et al (2008), based on the same general composition, they demonstrated that the addition of K2O caused a decrease in both density (from 2.635 g cm-3 to 2.715 g cm -3 and microhardness measurements (from 257 to 335 HV) and hence weakens the structure. These findings are attributed to the replacement of lighter c ation (Na2O) by a heavier one (K2O). The ionic radius of potassium is larger than the ionic radius of sodium so, the addition of K2O has a larger disrupting effect on the structure and hence weakens the glass-network. The decrease of melting point with the addition of K2O content indicates that K2O increases network disruption by producing non-bridging oxygens. And the low value of Tg indicates that the glass samples are thermally unstable. Additionally, the elastic modulus, decreases when the concentration of K2O is increased, which implies the weakening of the overall bonding strength, as more cross linking is degraded. The increase of the internal friction and the decrease of the thermal expansion coefficient with the addition of the K2O content are due to the formation of non-bridging oxygen ions. The SEM micrographs of the glass samples recorded before immersion in SBF indicates the amorphous nature of the materials and when glasses were immersed in SBF solutions for 10 days, t he glass-samples showed bioactivity. Although the addition of K2O to the ternary Na2O-CaO-P2O5 based system offers greater flexibility in terms of tailoring the solubility to suit potential biomedical applications, only little research has been conducted in using K2O in calcium phosphate glasses, probably because it has shown to increase network disruption which was confirmed by decrease in Tm, addition of K2O causes a decrease in density and microhardness measurements, it weakens overall bonding strength confirmed by a decrease in the elastic modulus, causing it to be less rigid as well as producing thermally unstable glasses which was confirmed by the low values of Tg. These mechanical properties are not desirable in the long run and due to it being less rigid, it would not withstand stress in biomedical applications and consequently result in failure. 2) Calcium phosphate glasses containing Magnesium: Research into calcium phosphate glasses which produce biocompatible and bioactive phases has generated a lot of interest. An attempt to induce -TCP was undertaken by Zhang et al (2000) on calcium phosphate glass-ceramics in the pyrophosphate region based on the composition 50CaO-40P2O5-7TiO2-1.5MgO-1.5Na2O (Ca:P molar ratio = 0.625). XRD results showed that the -TCP phase was not detected and the main crystalline phase precipitated was -CPP with smaller amounts of soluble Calcium titanophosphate, CaTi4(PO4)6 CTP, and Sodium titanophosphate, NaTi2(PO4)3. Kasuga et al (1998) reported a similar occurrence in the structure of glass-ceramics which contained TiO2 (wt 3 %). . SEM observations demonstrated light areas which were confirmed by EDS analysis to be -CPP, grey areas was thought to correspond to Na- containing phases and dark areas were composed of lower CaO contents compared to the other two areas and contained MgO and Na2O. These results were identical to Kasuga et als study (1999). The undetectable -TCP phase was possibly due to the low content of MgO and TiO2 added and the low Ca:P ratio of the gl ass. Although bioactive and biosoluble phases were precipitated in the glass-ceramic, no continuous apatite layer was formed even after 8 weeks of immersion in SBF solution. A study by Brauer et al (2007) observed the solubility of several phosphate glasses in the system P2O5-CaO-MgO-Na2O-TiO2. The glass compositions ranged from ultraphosphate glasses (with phosphate contents over 50 mol %) to polyphosphate glasses (containing 50 mol% P2O5 or less which are formed by phosphate chains or rings possessing different chain lengths) to invert glasses (pyrophosphate glasses- P2O5 concentrations of around 34 mol %.). Results showed that the phosphate glasses showed a uniform dissolution. No selective alkali leaching, which is known from silica based glasses, was observed. Also that the solubility of the glasses strongly depend on the glass-composition. The higher the phosphate content resulted in an increase in solubility; According to Vogel et al [104], this is due to the polymerisation of the phosphate chains and the Q1 end units being more susceptible to hydration and subsequent hydrolysis than Q2 middle groups. Also it was observed that the higher the conce ntration of Na2O resulted in an increase in solubility too due to the effect Na+ has on the glass structure. Addition of titanium oxide resulted in a decrease in both the solubility and the tendency of the glasses to crystallise by forming cross links between phosphate groups and titanium ions. Invert glasses showed a considerably smaller solubility than polyphosphate glasses and offer an alternative to polyphosphate glasses, since they are more stable to moisture attack. However, decreasing the P2O5 content makes glasses not only more stable to hydrolysis but also restricts the glass forming area. Hence, glasses in the pyrophosphate region show a larger tendency to crystallize than polyphosphate glasses [96]. However invert glasses in the system P2O5-CaO-MgO-Na2O showed that properties such as solubility and crystallization tendency can be controlled by adding small amounts of metal oxides [95]. Results of solubility experiments showed that the glass system investigated enabled adj ustment of solubility with only minor chemical changes. This ability to control the solubility is very promising for medical application where the coordination of implant degradation and bone formation are a key issue. A study by Dias et al (2005) studied the crystallisation of the glass-system: 37P2O5-45CaO-5MgO-13TiO2 (Ca:P=0.6)in the pyrophosphate and orthophosphate region, by using TiO2 as a nucleating agent and MgO as a network modifier. Results showed that they contained four different crystalline phases; two of them, -CPP and CTP are reported to be biocompatible and bioactive, respectively [88,97,98]. The biocompatibility of the other two phases Titania pyrophosphate: TiP2O7 and -CPP has not been clearly reported so far in the literature. It appeared from XRD studies that the formation of and -CPP was a simultaneous process. Usually, -CPP is observed on heating -CPP to temperatures greater than 1150C however for the glass composition used in the current study, it crystallised at the same time as -CPP at only 620C. A further study by Dias et al (2007) based on the same general composition confirmed these four crystalline phases by XRD patterns. Furthermore, they reported the chemical degrada tion of these glass-ceramics are in between that reported in literature for bioactive ceramics that are clinically used such as HA and TCP.[99] Hence opportunities exist to use these glass-ceramics as bone-graft in certain clinical applications; i.e. cranioplasty, where relatively slow resorption of the implant and replacement by bone is required. The addition of magnesium and titania to calcium phosphate invert glasses was compared by Kasuga et al (1999) [9] using the compositions; 60CaO-30P2O5-7Na2O-3TiO2 and 60CaO-30P2O5-7Na2O-3MgO in mol %. (Ca: P = 1). Results had shown that when both compositions were immersed in SBF, only the composition containing titania produced a calcium phosphate phase on the surface of the glass-ceramic whereas the magnesium composition did not. This was further confirmed in a later study by Zhang et al who also used TiO2 as well as Na2O and MgO in the composition. Calcium phosphate glasses containing magnesium have the advantage of control over its solubility, as well having good chemical degradation which is reported to be in between those of bioactive ceramics clinically used, such as TCP and HA.[99] Furthermore they have shown to produce bioactive and biocompatible phases, [9,23,24,26] However, there has been only little research in addition of magnesium to calcium phosphate glasses when compared with the addition of titania, due to the fact that magnesium containing calcium phosphate glasses do not produce a calcium phosphate phase when immersed in SBF and hence are not useful as bioactive materials for bone implants. Furthermore, titania has been shown to enhance mechanical properties of calcium phosphate glasses as well as improving its chemical durability and shows other useful properties which will be discussed later on. 3) Calcium phosphate glasses containing Sodium (Na2O) and Titania (TiO2): Kasuga et al, has extensively researched into calcium phosphate glasses in the pyrophosphate region. Kasuga, prepared new types of phosphate invert glasses with compositions of high CaO and low P2O5 contents to obtain bioactive materials; the glasses consist of PO43- (orthophosphate) and/or P2O74- (pyrophosphate) ions without PO32- (metaphosphate) ion and the phosphate groups are connected through Ca2+ ions, which acts as a network modifier. Kasuga (1998) for the first time, obtained SiO2-free calcium phosphate glasses in the pyrophosphate region by introducing small amounts of Na2O and TiO2 (totalling 10 mol %.) The majority of his research on calcium phosphate glasses has been based on the composition: 60CaO-30P2O5-7Na2O-3TiO2 (Ca:P = 1). XRD Kasugas XRD analysis has shown that calcium phosphate glasses containing sodium without titania based on the composition: 60CaO-30P2O5-10Na2O does not produce a -TCP phase and only forms -CPP, -NaCaPO4 and 4CaO-3P2O5 (tromelite) phases. [3,10] It has been shown that the addition of titania to the glass 60CaO-30P2O5-7Na2O-3TiO2 (Ca:P = 1) resulted in the formation of large crystals of both -CPP and -TCP. Furthermore, it was shown that calcium phosphate glasses with the composition: xCaO-(90-x)P2O5-3TiO2-7Na2O that had a CaO content of 60-62 mol % contained -CPP and -TCP phases however glasses with CaO content of 55 and 58 mol % formed only -CPP without -TCP nor a PO3 (metaphosphate) group. Hence, calcium phosphate glasses must have a high CaO content in order to contain orthophosphate and pyrophosphate groups without metaphosphate groups and the addition of titania to these glasses induced formation of -CPP and -TCP crystals. Further XRD analysis by Kasuga et al (2001), on machinable calcium pyrophosphate glass-ceramics, had shown that when glass powder compacts of 60CaO-30P2O5-5TiO2-5Na2O (Ca:P = 1) were heated between 850-1000C, both -CPP and -TCP were observed and with increasing temperature, the peak intensities of -CPP was found to decrease slightly, even though -CPP crystal could not be melted below 1350C. [8] Kasuga et als study on calcium phosphate glass-ceramics for bioactive coating on a titanium alloy revealed that the surface of the coating of a titanium alloy consisted predominantly of -TCP and -CPP crystalline phases. It also showed that 60CaO-30P2O5-7Na2O-3TiO2 glass-ceramic layer has a greater amount of -TCP than in the 50CaO-40P2O5-7Na2O-3TiO2 glass-ceramic and that (Ca0.5,Na)Ti2(PO4)3 crystals also precipitated. [102] DTA Differential thermal analysis (DTA) from Kasugas studies (1998,1999) based on the composition 60CaO-30P2O5-7Na2O-3TiO2 (Ca:P = 1) observed a slight shrinkage of the glass powder compacts at 600-800C which was believed to be due to the viscous flow of the glass powders. Also, a large shrinkage occurred when the temperature was elevated over 800C and stabilised around 850-870C. Two crystallisation peaks, Tps were observed between 630-750C and a melting temperature, Tm at 800C which was thought to be due to the partial melting of the crystalline phase.[9,10] Kasugas further studies (2002 and 2003) [101, 102] on calcium phosphate glasses and their coating on titanium alloys based on the same composition and another, (50CaO-40P2O5-7Na2O-3TiO2) revealed very similar DTA results in both exothermic and endothermic peaks and also had shown that both powder compacts sinter at 800C. [101, 102]A study on machinable calcium pyrophosphate glass ceramics, (2001) [8] based on the composition: 60CaO- 30P2O5-5TiO2-5Na2O (Ca:P = 1), showed a slight shrinkage of several per cent when the temperature was elevated above 780C and large shrinkage of the powder compacts began at 800C and was stabilized around 850-870C. These results may possibly suggest that crystallisation of the glasses occur at 640-730C resulting in the formation of -CPP and -TCP crystalline phases with a residual phosphate glassy phase containing TiO2. When the temperature was elevated over 780C the CPP phase precipitated in the crystallised product was partially melted by a reaction with the glassy phase. The formed melt flowed viscously around 800C, which resulted in the sintering of the powders. Although the densification was practically completed at 850-870C, the partial melting of the CPP phase proceeded gradually. At temperatures above 900C, no crystallisation of new phases and no phase transformation of the precipitated crystals were observed and the gases involved in the melt may be emitted to form pores. Th erefore the optimum heating temperature for the glass was determined to be 850C. FTIR Results from Kasugas studies have shown peaks at 960-1060cm-1 which corresponds to PO43- group of calcium orthophosphates such as HA and peak at 3500cm-1 corresponding to the OH group, both peaks increased after soaking in SBF. [9, 10] Based on another study on the composition, xCaO-(90-x)P2O5-3TiO2-7Na2O, when x = 45 (Ca:P = 0.5) strong peaks were observed at 700cm-1 and 1170cm-1, which is due to the PO3 (metaphosphate) group. [103]. In the glass x =55, peaks at 748cm-1 and 1044cm-1 were observed, which was due to the motion of bridging oxygen and the latter peak is due to non bridging oxygens in the Q1 tetrahedra which demonstrate the existence of the pyrophosphate group. It was also found that when the CaO content in the glass increased above 58 mol% an additional peak appeared at 950-960cm-1 which is assigned to the symmetric stretching mode of non-bridging oxygen atoms in the Q0 tetrahedra, orthophosphate group. In all of the glasses (x= 45-62) weak peaks at 890-900cm-1 were obs erved which are ascribed to the Ti-O stretching vibrations in TiO4 units that contain non-bridging oxygens. Furthermore, at 630cm-1 shoulders were observed in all the glasses, which may be due to the TiO6 group. Therefore the study confirmed that calcium phosphate glasses containing CaO 55 mol % with small amounts of Na2O and TiO2 had no long chain phosphate structure and were invert glasses with orthophosphate and pyrophosphate groups. Increasing the amount of TiO2 with decreasing Na2O in the composition: 60CaO-30P2O5-yTiO2-(10-y)Na2O caused an increase in the intensity of peaks 890cm-1 which is due to TiO4 and 650cm-1 due to TiO6. Furthermore, in the composition, 60CaO-30P2O5-7Na2O-3TiO2 a peak at 960 was observed due to PO4: orthophosphate group as well as P2O7 peaks due to the pyrophosphate group and no metaphosphate group was detected. In another study by Navarro et al (2003), [91] on the glass-system, P2O5-CaO-Na2O (Ca:P = 0.5), with titania addition, showed that titania free glasses displayed the characteristic shifts of metaphosphate glasses: the PO2 asymmetric stretch at 1260cm1, the PO2 symmetric stretch at 1170cm-1 and the P-O-P symmetric stretch near 690cm-1 both of which corresponded to metaphosphate groups, and the PO3 symmetric stretch at 1040cm-1 that belongs to pyrophosphate groups. The rest of the glasses which had titania, contained the peaks aforementioned as well as new bands; the TiO5 stretch at 900cm-1 and the TiO6 units stretch at 630cm-1. It was also observed that these new bands increased in intensity as the amount of titania added to the glasses increased. [91] SEM Kasugas SEM observations based on the composition: 60CaO-30P2O5-7Na2O-3TiO2 showed that due to the different atomic number contrast of phases precipitated, there exist bright and dark portions in the images for the glass-ceramic. Phases A and B are bright portions whereas C is the dark portion. A and B phases consist of calcium phosphates with small amounts of Na. Phase A is larger in Ca content than phase B and hence, phase A corresponds to -TCP and phase B to -CPP. Phase C, the dark portion contains larger amounts of Ti with Na with lower Ca content than phases A and B. Phase C is believed to be caused by the partial melting due to the densification of the glass powders. Therefore the bright portions observed are the calcium phosphate crystalline phases and the dark portions are the glassy phases containing TiO2 and Na2O. In another of his studies (2001) [6] based on the same composition, in an attempt to improve the mechanical strength of the glass-ceramics, he heated the glass compacts which had high density (93.5%) to 850C and low density glass compact (89.5%) to 950C. SEM observations showed that the glass compact heated to 850C (high density), densified relatively well however contained numerous small pores, which was detected from one of his earlier studies when it was too heated to 850C. [6, 10] However the glass compact heated to 950C (low density) showed less pores (round in shape) but they were larger in size than when heated to 850C. It is thought that the formation of the pores may be related to flow of a liquid phase formed by partial melting of the crystals precipitated in the glass ceramics at 800C. When the temperature is elevated to 850C, gas bubbles in the glass-ceramic may be taken in the liquid phase. Since the viscosity of the phase decreases with increasing heat temperature the bubbles would gather to reduce their surface area; resulting in the formation of large pores. Therefore, the bending strength, f of brittle materials is related to the fracture toughness, KIC and the critical flaw size, C in the materials. The size C, for semicircular surface flaw is estimated from f and KIC to be 250m and is 1.7 times higher than the value for 850C (150m). The glass-compact heated to 850C showed fine sized calcium phosphates embedded in the glassy matrix phase which can be seen in the glass-ceramic, whereas at 950C the SEM images showed each phase being extremely developed. In order to eliminate the pores, a hot-pressing technique was applied to the sintering of the glass-ceramic which resulted in an increase in relative density by 98.7%. As well as this, residual pores were drastically reduced in number and in size compared to before. The bending strength, f also increased by 160MPa and this value is close to that of natural cortical bone. The KIC was not improved (1.7MPa.m0.5) Therefore, as the mechanical strength and toughness of the glass-ceramics is relatively larger than -TCP and HA ceramics, it is promising results for the future and it was found that one of the optimum conditions to prepare high strength glass-ceramics was by a hot-pressing technique. Kasugas study (2001) [8] whereby he first reported machinable silica free glass-ceramics has shown that SEM observations based on the composition: 60CaO-30P2O5-5TiO2-5Na2O of the fracture face heated at 850C showed almost no pores whereas above 900C many large pores were observed in the samples. At 850C, plate shaped products of several ten nanometers in thickness were piled up and were interlocked with one another. This observed morphology is similar to that of fracture face of mica-based machinable glass-ceramics; which have been shown to have good machinability. SEM observations of the polished face showed presence of bright and dark portions due to the difference in the atomic number contrast of the formed phases. When heated for 3 hours, slightly dark portions of 1m in size were distributed. When heated for 8 hours, contrast difference was clearly seen and microstructure developed exceedingly, the grains were grown into an interconnecting 3D-network. EDS analysis confirmed that the bright grains are a calcium phosphate phase, indicating the presence of -CPP crystal. Although the presence of -TCP crystal was not found in the photo, it was however confirmed by XRD. The amount of -TCP crystal may have been relatively small and titanium was included in dark portions in the photo. 4) Calcium phosphate glasses containing Fluorine and Titania It is understood that in order to improve the chemical durability of calcium phosphate glass-ceramics, one of the ways is to anticipate the formation of fluoroapatite, which has the lowest solubility among various calcium phosphate crystals. Kasuga et al (2007) [106] investigated a novel calcium phosphate glass-ceramic for a dental filler based on the composition: 40CaO-25TiO2-30P2O5-5CaF2 [CTP-F] (Ca: P = 0.67) and for a comparative study he also prepared a glass-ceramic without fluorine: 45CaO-25TiO2-30P2O5 [CTP]. He found that the glass ceramic, CTP-F had good chemical durability. He later prepared (2009) a calcium titanium phosphate glass-ceramic with improved chemical durability than CTP-F and this glass-ceramic was prepared by including a small amount of fluorine based on the composition: 35CaO-10CaF2-30P2O5-25TiO2 in mol% [CFPT] (Ca:P = 0.58) and he used CTP again for comparison. XRD Kasugas XRD analysis on calcium titanium phosphate glass-ceramic with and without fluorine, CTP-F and CTP respectively showed peaks assigned to Nasicon-type crystal: CaTi4(PO4)6 and peaks assigned to Ti(PO3)3 and (TiO)2P2O7 crystals. Once CaF2 was added to the composition, apatite crystal was formed preferentially and CTP-F showed a weaker peak intensity of CaTi4(PO4)6 crystal than in the CTP glass-ceramic. [106] A later study by Kasuga et al (2009) showed that the glass-ceramic CTP contained crystalline phases such as -Ca2P2O7, CaTi4(PO4)6, TiO2 (anatase), and (TiO)2P2O7, whilst CFPT contained only Ca-Ti4(PO4)6 and apatite phases. The XRD peaks of CFPT glass-ceramic were sharp and their intensities were strong compared to the CTP glass-ceramic. DTA DTA curves from Kasugas study (2009) showed the glass transition temperatures, Tg of CTP and CFPT glasses to be 675C and 615C, respectively. The crystallisation temperatures were 785C and 685C of CTP and CFPT glasses, respectively and the lower temperature was due to fluorine inclusion. [107] In many cases, the chemical durability of glasses and glass-ceramics deteriorates upon including fluorine. However in Kasugas study the crystallisation behaviour of the CTP glass was drastically influenced by including a small amount of fluorine, and the resulting glass-ceramic showed excellent chemical durability. SEM SEM micrographs of CTP-F glass-ceramic surface demonstrates small-sized pits which are believed to originate from dissolution of crystalline and/or glassy calcium phosphate phases in the glass ceramics. SEM images of CTP and CFPT glass-ceramics show different morphologies. In the CPT glass-ceramic, the characteristic morphology, which is suggested to result from a spinodal-type phase separation of the glass before crystallisation, is observed. Earlier studies revealed that, in this kind of glass-ceramic, a calcium phosphate phase and a Nasicon-type crystalline phase such as CaTi4(PO4)6 are three-dimensionally intertwined, and the calcium phosphate phase is easily dissolved and removed by acid treatment. [108-109] On the other hand, in the CFPT glass-ceramic numerous independent pits several tens of nanometers in size are observed just as in the previous study. The composition of the surface from EDS analysis was suggested to be the CaTi4(PO4)6 phase and it was suggested that the phase that was leached out is the apatite, which is embedded in the CaTi4(PO4)6 phase. [107] During the heat treatment of CFPT glass, apatite is considered to form preferentially, and subsequently, or simultaneously, a large amount of the CaTi4(PO4)6 phase forms around the apatite. As a result, apatite particles several tens of nanometers in size would be apparently embedded in the CaTi4(PO4)6 phase. The orthophosphate group in the glass is consumed in the formation of not only the CaTi4(PO4)6 phase but also the apatite phase. Because of the formation of these phases, the amount of phosphate would decrease, resulting in the controlled formation of crystalline phases such as titanium phosphate and calcium pyrophosphate in the CTP glass-ceramic. In Kasugas earlier studies, no apatite formation was observed in fluorine containing calcium-phosphate-based glasses consisting of the meta- and/or pyrophosphate groups without the orthophosphate group. Therefore preferential apatite formation was suggested to occur in glasses containing the orthophosphate group. Furthermore, EDS analysis had shown that in the glass-ceramic CFPT, fluorine was partially evaporated and 2.8% of residual fluorine was contained in the glass out of the 6% of fluorine initially used in the composition. FTIR Kasugas FTIR analysis demonstrated that the calcium phosphate glass-ceramics with and without fluorine, CTP and CTP-F respectively show peaks corresponding to orthophosphate, pyrophosphate, and metaphosphate groups. The glass-ceramic containing fluorine (CTP-F) show sharper peaks than the CTP glass-ceramic which may imply that there is a larger amount of crystalline phases in CTP-F than there is in the CTP glass-ceramic. Furthermore, the CTP-F glass ceramic has larger intensities of peaks that correspond to the orthophosphate group than CTP. Generally the intensities of the peaks observed due to pyrophosphate group in both the spectrums are very small. In the CTP-F glass-ceramic, the peak corresponding to anatase is observed as supported by XRD. In the CTP glass-ceramic spectrum, a shoulder peak around 900cm-1 due to Ti-Onb group (Onb; non-bridging oxygen), is observed which is often seen in the glassy phase. It is thought that even after crystallisation, a relatively large amount of titanium constituent is included in the glassy phase. [106] In his later study (2009), it was shown that both CTP and CFPT glasses showed peaks corresponding to the orthophosphate group (PO43-), the pyrophosphate group (P2O74- group), and the metaphosphate group (PO3- group), which is in accord with Kasugas earlier study of 2007. [106-107] Furthermore, it was confirmed from the 19F MAS-NMR spectra of CFPT, that the apatite in the glass-ceramic was a fluorine-containing oxyapatite, Ca10(PO4)6(O, F2). Kasuga et al (2007) [106] found that the glass ceramic, CTP-F had good chemical durability which was suggested to originate from an increase in the amount of crystalline phases and a high content of titanium constituent in the residual glassy phase. It was observed that the incorporation of fluorine to the glass induced the apatite formation in the glass and the apatite phase was an oxyapatite crystal containing fluorine. (fluoro-oxyaptite) [106]. He later prepared a novel CFPT glass-ceramic which showed even more improved chemical durability than CTP-F. It was shown that the structure of the glass-ceramic was considerably influenced by a small amount of fluorine included in the calcium phosphate glass. Fluorine-containing oxyapatite, Ca10(PO4)6(O, F2) and Nasicon type, CaTi4(PO4)6 phases were preferentially formed during heat treatment and apatite particles several tens of nanometers in size were embedded in the Nasicon-type phase. Titanium ions were also included in the residual ph osphate glassy phase. The microstructure of this glass-ceramic was suggested to result in the excellent chemical durability and is promising results in order to design novel dental fillers. Benefits of Titania addition to calcium phosphate glasses: A lot of interest has been shown on the role of titania in calcium phosphate glasses. The titania content serves as an effective bulk nucleating agent in calcium phosphate glass (TiO2 above 4 wt %). Studies have confirmed that when TiO2 is added to calcium phosphate glasses, it improves its glass-forming ability, it improves the chemical durability of the glass, [13,14] its modulus elasticity, [14] it raises the glass viscosity, which was shown by an increase in the glass-transition temperature, Tg and consequently strengthens the glass network. Furthermore, studies have shown that when TiO2 is added into calcium phosphate glasses, it increases the bulk density of the glass, it decreases the solubility of the glasses well as decreasing its tendency to crystallise. It is understood that the incorporation of titanium ions into the phosphate network causes a structural change. The phosphate network changes from chain extending metaphosphate tetrahedra to chain-terminating pyrophosphate groups, which is expected when the O:P ratio increases in these types of glasses. (Based on the general composition: CaO-P2O5-Na2O) [90] Therefore, TiO2 incorporation is associated with the formation of TiO5 or TiO6 titanate polyhedra between the phosphate glass chains. As, the titanium ion has a small ionic radius and a large electrical charge compared to Na+, it has the ability to penetrate into the glass network in an interstitial position. This means that titanium has the capacity to enter into the vitreous arrangement and place itself between the phosphate chains and rings, creating cross-linking between Ti4+ ions and the phosphate tetrahedra. Therefore addition of TiO2 into phosphate glasses increases the O:P ratio, creating stronger TiOP cross-links in the g lass network. As a result, the glass becomes rigid, more resistant to hydration subsequently increasing its elastic modulus and chemical durability. A study by Neel at al (2008) [105] studied the effect of increasing titanium dioxide on calcium phosphate glasses based on the general composition: CaO-P2O5-Na2O. Glasses of 15 mol % TiO2 were successfully obtained however, glasses with 20 mol.% could not be prepared as they crystallised easily during cooling. By incorporating 15 mol % TiO2 into the glasses, the bulk density increased which was due to the replacement of the low-density element Na+ with the high-density element Ti4+. Analysis of DSC data showed that the addition of TiO2 results in a significant increase in Tg values. DTA results showed that the glass containing 5 mol % TiO2 showed two crystallisation peaks. However the glass-free TiO2, and the glasses containing 10 and 15 mol % TiO2 showed only one crystallisation peak, in the region 490-580C, 705-810C and 725-815C respectively. Addition of 10 and 15 mol.% TiO2 produced glass structures with two broad melting peaks ranging from 790 to 890C and 835 to 935C, respectivel y, instead of a single sharp melting peak ranging from 705 to 775C as seen for the ternary glass with no TiO2. [105] Ternary glass with no TiO2 produced a NaCa(PO3)3 phase which was identified from XRD. Glasses with 5 mol.% TiO2, produced two phase: NaCa(PO3)3 was the main phase, and TiP2O7 was the second phase. The glass with 10 and 15 mol.% TiO2, another phase, -CaP2O6 was also identified. For glass containing 15 mol.% TiO2, TiP2O7 became the main phase, instead of NaCa(PO3)3 which was the main phase for all other compositions. The glasses containing TiO2 (5, 10 and 15 mol %) showed one order of magnitude reduction in degradation rate compared to TiO2 free glass which suggests that addition of TiO2 beyond 5 mol % does not produce further significant reduction in the degradation rate compared to 5 mol.% TiO2-containing glasses. Hence we can propose that there is an optimal amount of Ti4+ ions to be incorporated into the glass network to reduce the degradation, beyond which addition of more Ti4+ ions has no effect on degradation rate. [105] Furthermore, addition of titania to calcium phosphate glasses has shown to induce formation of -CPP and -TCP during heat treatment. and is known to produce a calcium phosphate phase (apatite layer) on the surface of the glass ceramic and hence has shown bioactivity. Addition of titania has shown to improve its chemical durability and it is thought that the apatite formation is influenced by the durability of the glassy phase in the glass-ceramics.Apart from this, the glass-ceramic containing titania has shown relatively high fracture toughness, KIC (1.9 MPa m0.5) and bending strength (100-120 MPa). The toughness is approximately twice larger than that of TCP or HA ceramics. The glass-ceramic containing titania has enhanced mechanical properties as well as toughness, which is promising as a novel glass-ceramic with bioactivity for biomedical applications. Benefits of Fluorine addition to calcium phosphate glasses: Due to the properties of glass and glass-ceramics being determined critically by their composition, the crystallisation process and the microstructure, both the design and characterisation of these glasses play very important role on the development of new medical glasses and will be discussed in this chapter.FEI Some studies have reported that using appropriate heat treatment the microstructure can be controlled by controlling the phases and sizes of crystals that are precipitated in the glasses [g] Middle of Review? Calcium phosphates are now used for a variety of different applications covering all areas of the skeleton including spinal fusion, craniomaxillofacial reconstruction, treatment of bone defects, fracture treatment, total joint replacement (bone augmentation) and revision surgery. Calcium phosphate implants (and hydroxyapatite, in particular) are used in the form of coatings on metallic implants, as fillers in polymer matrices, as self setting bone cements, as granules or as larger, shaped structures. Disadvantages of calcium phosphate glasses: Brittleness- cannot be used in load bearing applications. As a result they are mostly used as coatings on metallic substrates. Potential to fail catastrophically, difficulty to machine. MOST COMMON RESEARCHED TPYES OF CaP glasses-Among the bioactive ceramics most commonly investigated for bone substitution are -TCP, HA and bioactive glasses. TALK ABIT ABOUT BONE COMPOSITION! NOT ALL Ca:P are suitable for implants only 1!!! Talk about compositions of HA, b-TCP, b-CPP in relation to their properties i.e-biocompatiblity etc Talk about applications of each type of CaP materials, i.e HA, etc [LIT REVIEW ON Ca:P glasses having apps in dental field and relating to what was found in terms of solubility, hardness, biocompatibiltiy etc [3-4JOURNALS MAX!!!] Since the discovery by Hench et al (1971), the most commonly investigated types of calcium phosphate ceramics are HA, -TCP, -CPP which have been found to be bioactive and are already in clinical use for bone substitutes. . However not even these bioactive materials can replace all bone autografts. The need to develop bioactive materials with a higher bonding ability as well as different mechanical properties is essential. Different calcium phosphates exhibit widely different resorption properties. The resorption property of calcium phosphates depends on Ca/PO4 ratio, degree of crystallinity and crystal structure. Chin et al (1996) reported the development of resorbable Ca-P-O glass prepared from CaO and P2O5 for tooth and bone implant applications. In the present study, a highly resorbable Ca-P-O glass was prepared and this was evaluated for its biocompatibility. But the potential of any ceramic material to be used as an implant in vivo depends upon its ability to withstand complex stresses at the site of application and its compatibility with the biological environment. Among different forms of calcium phosphates, particular attention has been placed to tricalcium phosphate (Ca3(PO4)2, TCP) and hydroxyapatite (Ca10(PO4)6(OH)2, HAp) due to their outstanding biological responses to the physiological environment. The contemporary health care industry uses calcium phosphate ceramics in various applications, depending upon whether a resorbable or bioactive material is ideal. The recent trend in bioceramic research is focused on overcoming the limitations of calcium phosphates, precisely hydroxyapatite ceramics and in improving their biological properties via exploring the unique advantages of nanotechnology. Calcium phosphate based materials have also received a lot of attention due to their similarity with the mineral phase of bone, the absence of antigenicity and the excellent osteoconductivity. Such materials are hydroxyapatite (HA, Ca5(PO4)3OH ), -tricalcium phosphate (TCP, -Ca3(PO4)2), -calcium pyrophosphate (CPP,-Ca2P2O7) and fluorapatite (FAP, Ca5(PO4)3F) [34-37]. These materials have found application as fillers for bone defects, bone substitutes and as scaffolds for drug delivery due to their unique solubility. The requirement for bioactivity All the bioactive ceramics mentioned above, apart from beta-tricalcium phosphate form an apatite layer on their surface in the living body and hence bond to living bone through this apatite layer. This apatite layer is very similar to bone mineral in its composition and structure. Therefore osteoblasts, which are responsible for bone formation preferentially, proliferate and differentiate to produce apatite and collagen on this apatite layer and consequently the surrounding bone can come into direct contact with the surface apatite layer. When this occurs, a strong chemical bond is formed between the bone minerals and the surface apatite layer to reduce the interface energy between them. This indicates that the essential requirement for an artificial material to bond to living bone is the formation of a biologically active bone-like apatite layer on its surface in the living body. The requirement for apatite formation The fact that apatite formation only occurs in bone tissue in the human body is attributed to the high activation energy for the homogeneous nucleation of apatite in human body fluid. Therefore if an artificial material has a functional group that could be an effective apatite nucleation site on its surface, then it will easily form apatite nuclei on its surface. Once the apatite nuclei are formed, they would spontaneously grow by consuming calcium and phosphate ions from the surrounding body fluid. The requirement for apatite formation on an artificial material in a living body is the presence of a type of functional group that could be an effective site for apatite nucleation on its surface. These types of functional groups can include TiO2 or SiO2 gels which have shown to form bone-like apatite on their surfaces. Hence, abundant Ti-OH and Si-OH groups on the gels are effective for apatite nucleation. 1.5 Aims and Objectives To make a Fluorine containing Calcium Phosphate Glass i.e. a simple Fluoroapatite stoichiometric glass. An early realisation demonstrated that a glass having a Ca:P of 0.5 could not be made and fluorine was not retained in the structure. Hence the aim of my research was to make a fluorine containing calcium phosphate glass with a Ca:P of 0.5 and less, in the hope to retain fluorine by the addition of titania. As previous research has shown that calcium phosphate ceramics having a Ca:P of less than 1 are not suitable as implants as they are not compatible with bone, thus the glass-ceramic I have produced has a Ca:P of 0.5 and less, so instead it may possibly have applications as a dental material.