<p>"This book offers a comprehensive overview of microwave energy in the processing of biomaterials, highlighting its advantages over conventional methods such as rapid and uniform heating, energy efficiency, enhanced material properties, and sustainability. Covering a broad spectrum of applications, it introduces microwave-assisted sintering, casting, curing, extrusion, and drug delivery, with insights into their role in advancing biomedical technologies.<br>The chapters explore cutting-edge developments including additive manufacturing combined with microwave sintering for patient-specific implants, microwave casting of titanium alloys for dental applications, polymer-based scaffolds for regenerative medicine, and hybrid composites with superior wear resistance. Emerging applications such as microwave-assisted drug delivery, nanocarrier synthesis, and energy-efficient coatings are also discussed.<br>With contributions from leading experts, this book highlights current challenges, opportunities, and future directions in microwave-assisted processing of biomaterials. It serves as a valuable reference for researchers, academicians, and professionals in biomedical engineering, biomaterials, materials science, and medical device development, offering insights into sustainable innovations shaping next-generation healthcare."</br></br></p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Microwave Energy and Biomaterials

摘要

"This book offers a comprehensive overview of microwave energy in the processing of biomaterials, highlighting its advantages over conventional methods such as rapid and uniform heating, energy efficiency, enhanced material properties, and sustainability. Covering a broad spectrum of applications, it introduces microwave-assisted sintering, casting, curing, extrusion, and drug delivery, with insights into their role in advancing biomedical technologies.
The chapters explore cutting-edge developments including additive manufacturing combined with microwave sintering for patient-specific implants, microwave casting of titanium alloys for dental applications, polymer-based scaffolds for regenerative medicine, and hybrid composites with superior wear resistance. Emerging applications such as microwave-assisted drug delivery, nanocarrier synthesis, and energy-efficient coatings are also discussed.
With contributions from leading experts, this book highlights current challenges, opportunities, and future directions in microwave-assisted processing of biomaterials. It serves as a valuable reference for researchers, academicians, and professionals in biomedical engineering, biomaterials, materials science, and medical device development, offering insights into sustainable innovations shaping next-generation healthcare."