Handbook of Ionic Substituted Hydroxyapatites
  • Release Date : 16 November 2019
  • Publisher : Woodhead Publishing
  • Categories : Medical
  • Pages : 428 pages
  • ISBN 13 : 9780081028353
  • ISBN 10 : 0081028350
Score: 4
From 245 Ratings
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Synopsis : Handbook of Ionic Substituted Hydroxyapatites written by Abdul Samad Khan, published by Woodhead Publishing which was released on 16 November 2019. Download Handbook of Ionic Substituted Hydroxyapatites Books now! Available in PDF, EPUB, Mobi Format. Handbook of Ionic Substituted Hydroxyapatites provides scientists and researchers with comprehensive information on the synthesis processes of hydroxyapatite, also explaining the application of substituted hydroxyapatite. The book's content is very structured and explanatory, starting with a detailed overview of biological apatite in bones and teeth, as well as a presentation of the analytical tools for hydroxyapatite. Bioceramics and the relative modern and emerging processing techniques are covered, as is 3-D printing, which has gained increasing importance within biomedical materials and in the use of hydroxyapatite in tissue engineering. Finally, the advantages and disadvantages of using ionic substitutions in clinical application are presented. Students and researchers in disciplines, such as Material Science, Ceramics, and Bioengineering will find this book to be very helpful in their work. It will also be a valuable resource for practitioners and surgeons in orthopedics, perio/implantology and maxillo-facial disciplines, and professionals working in R&D in ceramics and pharmaceuticals. Provides responses to the lack of scientific information about hydroxyapatites for biomedical applications Solves researchers’ issues regarding phase changes with respect to substituted ions and how these substitutions can alter/improve the properties of stoichiometric hydroxyapatite Explains modern clinical applications and the effects of apatites within biomedical applications Includes both the advantages and disadvantages of using ionic substitutions in clinical application