Affiliation:
1. G.L. Bajaj Institute of Technology and Management, India
2. Mechanical Engineering, Rawal Institute of Engineering and Technology, India
Abstract
The leg bone that typically undergos the most deformation is the femur. Failures of the femur neck, which are most frequent among human bone failures due to their length and weight, are a very serious issue for people. However, before using biomaterials in implants or any orthopaedic surgery, the right biomaterials must be chosen based on their mechanical and physical properties in comparison to natural bone. The use of biomaterials in the treatment of orthopaedic-related issues is very crucial. By taking into account the mechanical and physical properties of materials, discussions and comparisons of biomaterials are conducted. In comparison to other materials, biomaterials like SS316L, Ti6Al4V, PMMA, and CoCr alloys, magnesium alloys have been found to be a better substitute.
Reference80 articles.
1. Bone and soft tissue integration to titanium implants with different surface topography: An experimental study in the dog.;I.Abrahamsson;The International Journal of Oral & Maxillofacial Implants,2001
2. Biomaterials: Journal of Japanese Society for Biomaterials 28 (3), 155-156, 2010-07-30.;T.Akahori;Metallurgical and Materials Transactions. A, Physical Metallurgy and Materials Science,2002
3. Al-Thobity, A. M. (2020). The impact of polymerization technique and glass-fiber reinforcement on the flexural properties of denture base resin material. European journal of dentistry, 14(01), 092-099.
4. Mechanical strength evaluation analysis of stainless steel and titanium locking plate for femur bone fracture.;D.Amalraju;Engineering Science and Technology: An International Journal,2012