This book delves into recent advances and prospects for implementation of Mg alloys in biomedical implants and provides scientific insights into current issues posed by Mg alloys materials. It provides an overview of research on their mechanical and tribological characteristics, corrosion tendencies, and biological characteristics.
This book delves into recent advances and prospects for implementation of Mg alloys in biomedical implants and provides scientific insights into current issues posed by Mg alloys materials. It provides an overview of research on their mechanical and tribological characteristics, corrosion tendencies, and biological characteristics.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Deepak Kumar is a Postdoctoral Research Associate in the Department of Mechanical Engineering at Carnegie Mellon University, USA. His work involves the development of thin conductive film, integration of these methods with devices using clean room technology, characterizing device behavior through a novel, in-house-built controlled characterization platform, and analyzing the results to unravel the mechanisms governing performance limits and failure modes. Dr. Nooruddin Ansari is a Postdoctoral Research Associate in the Department of Mechanical Engineering at Texas A & M University, Qatar. He is currently working on the development of steels, Ti, Al, and Mg alloys through additive manufacturing, with a focus on investigating their mechanical and corrosion behavior across different environments.
Inhaltsangabe
1. Magnesium Alloys for Biomedical Applications: Scope and Opportunities. 2. Manufacturing Methods of Mg Alloys for Biomedical Applications. 3. Role of Alloying Elements on Biomedical Performance of Mg Alloys. 4. Mechanical, Chemical, Fatigue, and Biological Compatible Properties of Mg Alloys. 5. Surface Modification of Magnesium alloy Employing External Coating for Biomedical Applications. 6. Surface Modification of Mg alloys: An Insight into Friction stir based Techniques. 7. Magnesium Alloys for Biomedical Applications: Advances and Challenges. 8. Corrosion Behavior of Mg Alloys in Simulated Body Fluids. 9. Reuse Remanufacturing and Recycling of Mg Alloys. 10. Magnesium Alloys for Biomedical Applications: Future Scope and Challenges.
1. Magnesium Alloys for Biomedical Applications: Scope and Opportunities. 2. Manufacturing Methods of Mg Alloys for Biomedical Applications. 3. Role of Alloying Elements on Biomedical Performance of Mg Alloys. 4. Mechanical, Chemical, Fatigue, and Biological Compatible Properties of Mg Alloys. 5. Surface Modification of Magnesium alloy Employing External Coating for Biomedical Applications. 6. Surface Modification of Mg alloys: An Insight into Friction stir based Techniques. 7. Magnesium Alloys for Biomedical Applications: Advances and Challenges. 8. Corrosion Behavior of Mg Alloys in Simulated Body Fluids. 9. Reuse Remanufacturing and Recycling of Mg Alloys. 10. Magnesium Alloys for Biomedical Applications: Future Scope and Challenges.
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