This Superelastic Alloy Could Increase Hip Implant Success
Michael Hemsworth — June 1, 2022 — Lifestyle
References: tohoku.ac.jp & newatlas
This superelastic alloy has been developed by a team of scientists at the Tohoku University in Japan as a solution for use within implants that's durable yet highly flexible. The material was developed and tested, which showed a strain recovery rate that's two-times higher than nickel-titanium alloys and flexibility that's closer to human bone. The material, known as Co-Cr-Al-Si (CCAS), is undergoing a series of additional testing to determine the surrounding reasons why the alloy shows such excellent performance properties.
The superelastic alloy, although only presently under study, shows merit as a potential new material to use in the future that strikes a balance between strength and flexibility. The material is also free from nickel, which could cause an allergic reaction.
Image Credit: Depositphotos
The superelastic alloy, although only presently under study, shows merit as a potential new material to use in the future that strikes a balance between strength and flexibility. The material is also free from nickel, which could cause an allergic reaction.
Image Credit: Depositphotos
Trend Themes
1. Superelastic Alloy Development for Implants - There is an opportunity to further develop superelastic alloys that could replace current implant materials with increased durability and flexibility.
2. Nickel-free Material Innovations - Nickel-free materials are a growing trend in the medical industry as a way to reduce allergic reactions and a potential area of future development in implant materials.
3. Material Testing Advancements - There is an opportunity for advancements in testing techniques to better understand why materials like Co-Cr-Al-Si perform exceptionally well and to identify other potential applications.
Industry Implications
1. Medical Implant Industry - This disruptive technology has the potential to disrupt and improve the medical implant industry by increasing the success rates and comfort of implanted devices.
2. Material Science Industry - The superelastic alloy Co-Cr-Al-Si developed by Tohoku University represents a significant innovation in the material science field by demonstrating increased durability, strength, and flexibility.
3. Allergy Reduction Industry - Nickel allergies are a common concern with implant materials, and the shift towards nickel-free materials is a growth area in the implant industry as a way to improve the patient experience and reduce the occurrence of allergic reactions.
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