Handbook Of Ionic Substituted Hydroxyapatites
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Handbook of Ionic Substituted Hydroxyapatites
Author: Abdul Samad Khan
language: en
Publisher: Woodhead Publishing
Release Date: 2019-11-16
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
Advances in 3D and 4D Printing of Medical Robots and Devices
Advances in 3D and 4D Printing of Medical Robots and Devices presents the most recent innovative breakthroughs in smart manufacturing and biomedical engineering to help enhance knowledge and expertise in 3D/4D printing technologies and advancements in biomedical applications through robotics and medical devices. This book highlights the usage and importance of 3D/4D printing-based prototyping as well as the manufacturing of robotic elements such as energy generators, morphology control, and novel design strategies. This book will help readers to pursue contemporary insights into currently ongoing practices in biomedical and mechatronic engineering including the fabrication of actuators manufacturing; muscles, vibration dampers, bio-inspired structures, pre-surgical and post-surgical tooling, medical assistance robots, drug delivery, microfluidic, and wearable electronics. Academic scholars, manufacturing scientists, and commercial manufacturers of bio-devices and medical robotics will find this book to be useful in adopting competent biomaterials as well as innovative techniques for applications in biomedical engineering. - Covers all the topics pertaining to 3D & 4D printing & robotics both fundamentals and advancements - Provides scientific and technological insights on additive manufacturing routes - Covers a wide range of biomedical devices; such as actuators manufacturing; muscles; vibration dampers; bio-inspired structures; pre-surgical and post-surgical tooling implants; scaffolds; organs
Sol-Gel - A Versatile and Wide Technology
The sol-gel method is a powerful and versatile wet chemical process for synthesizing advanced materials, particularly oxide-based nanostructures. Its ability to produce materials in various forms, such as powders, thin films, fibers, and aerogels, makes it a valuable tool in fields ranging from electronics and energy to medicine and environmental science. This book provides a comprehensive overview of sol-gel technology, highlighting its cost-effectiveness, flexibility, and precise control over material properties. Special attention is given to developing sustainable sol-gel processes in response to increasing environmental concerns. Emerging eco-friendly synthesis routes, including using plant extracts, biopolymers, and non-toxic solvents, are explored as natural polymerizing agents and reaction media. These green approaches offer a sustainable alternative to conventional methods, reducing the need for hazardous chemicals while maintaining high-performance material characteristics. By exploring both traditional and innovative sol-gel techniques, this volume serves as an essential resource for researchers, scientists, and industry professionals seeking to harness the full potential of sol-gel technology in modern material development.