Frontiers for bulk nanostructured metals in biomedical applications. In: Tiwari, A., Nordin, A.N. (Eds.), Advanced Biomaterials and Biodevices. Scrivener Publishing, Beverly, Massachusetts, USA, pp. 3-52.Lowe, T.C., Valiev, R.Z., Frontiers for bulk nanostructured metals in biomedical ...
Metals in biomedical device are exploited due to their inertness and structural functions. They are generally preferred over polymers or ceramics especially in applications where the implants are subjected to loads either static, dynamic or cyclic in nature requiring a combination of strength and ...
This book is the first to provide readers with an understanding of fundamental theory relating to the use of metals in biomedical applications in addition to comprehensively covering applied aspects encompassing practical and technical advantages and disadvantages. Topics highlighted in the book include ...
Finally, specific examples of the corrosion and tarnish-related behavior of precious metals used in biomedical applications are presented.doi:DOI: 10.1016/B978-0-85709-434-6.50014-7S.J. MegremisPrecious Metals for Biomedical Applications
作者:Hermawan, Hendra 出版年:2012-8 页数:77 定价:$ 56.44 ISBN:9783642311697 豆瓣评分 目前无人评价 评价: 内容简介· ··· This book in the emerging research field of biomaterials covers biodegradable metals for biomedical applications. The book contains two main parts where each of them consists...
Stainless steel, especially the 316L alloy, is widely used in biomedical applications. It offers excellent strength, corrosion resistance, and affordability. This metal is used in a variety of medical devices such as surgical instruments, stents, and orthopedic implants. Although its biocompatibility ...
In the field of ceramic BJ3DPs, especially for biomedical applications, there already are various investigations regarding the use of non-hazardous binder materials such as green-solvent-soluble polymers, maltodextrin, sugar, and corn starch35,36,37. However, only a few candidates for metal BJ3D...
Titanium and its alloys show the greatest biocompatibility among metallic materials for biomedical applications. They are, however, grouped within bioinert materials together with ceramics, such as alumina and zirconia, on the basis of the pattern of osteogenesis. For tight fixation and long-...
Biomedical EPR Part A focuses on applications of EPR spectroscopy in the areas of free radicals, metals, medicine, and physiology. The book celebrates the 70th birthday of Prof. James S. Hyde, Medical College of Wisconsin, and his contributions to this field. Chapters are written to provide in...
Hermawan H, Ramdan D, Djuansjah JRP.Metals for biomedical applications. In: Fazel R (ed). Biomedical Engineering - From Theory to Applications,Intechopen.com, 2011: 411-430. [DOI Link] International Stainless Steel Forum.The Stainless Steel Family. Brussels, Belgium. Downloaded fromwww.worldstai...