旋转锻造后生物相容性钛合金 Ti-39Nb-7Zr 的显微结构和物理力学性能

Metals Pub Date : 2024-04-24 DOI:10.3390/met14050497
Anatoly Illarionov, Galymzhan Mukanov, Stepan I Stepanov, Viktor Kuznetsov, R. Karelin, Vladimir Andreev, Vladimir Yusupov, Andrei Korelin
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引用次数: 0

摘要

采用各种方法,包括光学显微镜、扫描和透射电子显微镜、X 射线衍射、显微压痕、拉伸测试和连续加热过程中的热物理性能调查,研究了生物相容性 Ti-39Nb-7Zr 合金(重量百分比)在旋转锻造(RF)产生严重塑性变形后的微观结构、相组成和物理机械性能的演变。初始为单一 β 相结构的热轧 Ti-39Nb-7Zr 在 450 ℃ 下经过累积真实变形度为 1.2 的多通道射频处理后,形成了纤维状 β 晶粒结构,其中有不完美的 500 nm 子晶粒,其特征是位错密度增加。此外,在晶体中和沿β晶粒边界形成了纳米级的α沉淀物。这些结构变化导致显微硬度从 215 HV 增加到 280 HV,接触弹性模量从 70 GPa 增加到 76 GPa。射频后,Ti-39Nb-7Zr 的强度和延展性组合接近于医学中广泛使用的 Ti-6Al-4V ELI 合金,但 Ti-39Nb-7Zr 不含生物相容性有限的元素,其弹性模量比 Ti-6Al-4V ELI 低 1.5 倍。考虑了射频后 Ti-39Nb-7Zr 合金物理性质(弹性模量、热容量、热扩散率)的温度依赖性,并证明该合金在 450 °C 以下具有足够的热稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microstructure and Physico-Mechanical Properties of Biocompatible Titanium Alloy Ti-39Nb-7Zr after Rotary Forging
The evolution of microstructure, phase composition and physico-mechanical properties of the biocompatible Ti-39Nb-7Zr alloy (wt.%) after severe plastic deformation by rotary forging (RF) was studied using various methods including light optical microscopy, scanning and transmission electron microscopies, X-ray diffraction, microindentation, tensile testing and investigation of thermophysical properties during continuous heating. The hot-rolled Ti-39Nb-7Zr with initial single β-phase structure is subjected to multi-pass RF at 450 °C with an accumulated degree of true deformation of 1.2, resulting in the formation of a fibrous β-grain structure with imperfect 500 nm subgrains characterized by an increased dislocation density. Additionally, nano-sized α-precipitates formed in the body and along the β-grain boundaries. These structural changes resulted in an increase in microhardness from 215 HV to 280 HV and contact modulus of elasticity from 70 GPa to 76 GPa. The combination of strength and ductility of Ti-39Nb-7Zr after RF approaches that of the widely used Ti-6Al-4V ELI alloy in medicine, however, Ti-39Nb-7Zr does not contain elements with limited biocompatibility and has a modulus of elasticity 1.5 times lower than Ti-6Al-4V ELI. The temperature dependences of physical properties (elastic modulus, heat capacity, thermal diffusivity) of the Ti-39Nb-7Zr alloy after RF are considered and sufficient thermal stability of the alloy up to 450 °C is demonstrated.
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