Main description:

Covers recent developments in materials like graphene reinforced magnesium metal matrix, magnesium, and its alloys.
Discusses design and Analysis of Stainless Steel 316L for Femur Bone fracture healing.
Covers advanced materials, their properties, and processing techniques.
Provides advanced integrated design and nonlinear simulation problems occurring in the biomechanical engineering field.

Contents:

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.