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E-raamat: Advanced Materials for Biomechanical Applications

Edited by (Case Western Reserve Uni, US), Edited by (Graphic Era Uni, India), Edited by (Technical Educational Department, UP, India)
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Advanced Materials for Biomechanical ApplicationsSuurem pilt
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This reference text covers advanced materials, their properties, processing and applications in a single volume. It will serve as a useful text for graduate students and academic researchers in areas including materials science, manufacturing engineering, mechanical engineering, and industrial engineering.

This book provides in-depth knowledge about cross rolling of biomedical alloys, cellulose, magnetic iron oxide nanoparticles, magnesium-based nanocomposites, titanium, titanium alloys, stainless steel, and improved biodegradable implants materials for biomechanical applications like joint replacements, bone plates, bone cement, artificial ligaments and tendons, dental implants for tooth fixation, and hip implants.

It comprehensively covers advancements in materials including graphene-reinforced magnesium metal matrix, magnesium and its alloys, and 2D nanomaterials. The text discusses important topics including advanced materials for biomechanical applications, design, and analysis of stainless steel 316L for femur bone fracture healing, design and manufacturing of prosthetic dental implants, a biomechanical study of a low-cost prosthetic leg, and an energy harvesting mechanism for walking applications.

The text will serve as a useful text for graduate students, academic researchers, and general practitioners in areas including materials science, manufacturing engineering, mechanical engineering, and biomechanical engineering.

1. Bio-Mechanical Engineering and Health.

2. Introduction to Cross Rolling of Biomedical Alloys.

3. Additive Manufacturing and Characterisation of Biomedical Materials.

4. Cellulose A Sustainable Material for Biomedical Applications.

5. Magnetic Iron Oxide Nanoparticles for Biomedical Applications.

6. Magnesium-Based Nanocomposite for Biomedical Applications.

7. Magnesium Alloy for Biomedical Applications.

8. Investigation of Titanium Lattice Structures for Biomedical Implants.

9. Cost Estimation of Polymer Material for Biomedical Application.

10. Nanostructured Biomaterials for Load-Bearing Applications.

11. Improved Biodegradable Implant Materials for Orthopaedic Applications.

12. Fracture Performance Evaluation of Additively Manufactured Titanium
Alloy.

13. Design of Low Cost Prosthetic Leg Using Magnetorheological Fluid.

14. FEA Analysis of Humerus Bone Fracture and Healing.

15. Design of Energy Harvesting Mechanism for Walking Applications.
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Püsilink: https://www.kriso.ee/db/97810005806932e.html
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