Development of new metallic alloys for biomedical applications.

Mitsuo Niinomi; Masaaki Nakai; Junko Hieda

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Development of new metallic alloys for biomedical applications.

机译：开发用于生物医学的新型金属合金。

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New low modulus β-type titanium alloys for biomedical applications are still currently being developed. Strong and enduring β-type titanium alloy with a low Young's modulus are being investigated. A low modulus has been proved to be effective in inhibiting bone atrophy, leading to good bone remodeling in a bone fracture model in the rabbit tibia. Very recently β-type titanium alloys with a self-tunable modulus have been proposed for the construction of removable implants. Nickel-free low modulus β-type titanium alloys showing shape memory and super elastic behavior are also currently being developed. Nickel-free stainless steel and cobalt-chromium alloys for biomedical applications are receiving attention as well. Newly developed zirconium-based alloys for biomedical applications are proving very interesting. Magnesium-based or iron-based biodegradable biomaterials are under development. Further, tantalum, and niobium and its alloys are being investigated for biomedical applications. The development of new metallic alloys for biomedical applications is described in this paper.

机译：目前仍在开发用于生物医学的新型低模量β型钛合金。研究了具有低杨氏模量的坚固耐用的β型钛合金。已证明低模量可有效抑制骨萎缩，从而在兔胫骨骨折模型中导致良好的骨重塑。最近，已经提出了具有自可调模量的β型钛合金用于可移除植入物的构造。目前还正在开发无镍低模量β型钛合金，该合金具有形状记忆和超弹性性能。用于生物医学的无镍不锈钢和钴铬合金也受到关注。事实证明，用于生物医学的最新开发的锆基合金非常有趣。镁基或铁基可生物降解的生物材料正在开发中。此外，正在研究钽，铌及其合金的生物医学应用。本文介绍了用于生物医学的新型金属合金的开发。

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《Acta biomaterialia》 |2012年第11期|共16页
作者
Mitsuo Niinomi; Masaaki Nakai; Junko Hieda;
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Development of new metallic alloys for biomedical applications.

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