Low Young's Modulus and High Strength Obtained in Ti-Nb-Zr-Cr Alloys by Optimizing Zr Content

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Low Young's Modulus and High Strength Obtained in Ti-Nb-Zr-Cr Alloys by Optimizing Zr Content

机译：通过优化Zr含量，在Ti-Nb-Zr-Cr合金中获得的低杨氏模量和高强度

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A series of Ti-29Nb-(4, 7, 10, 13)Zr-2Cr alloys were fabricated to investigate the influence of Zr content on microstructures and mechanical properties. All the four alloys present a single beta phase after solution treatment. With the increase in Zr content, the 0.2% proof stress is gradually increased from 388 MPa in Ti-29Nb-4Zr-2Cr to 713 MPa in Ti-29Nb-13Zr-2Cr. The Young's modulus gradually is decreased from 80 GPa in Ti-29Nb-4Zr-2Cr to 63 GPa in Ti-29Nb-13Zr-2Cr. The elongation shows the same trend as that of Young's modulus. The changes of mechanical properties are influenced by the beta stability and solid solution strengthening effect, which are both enhanced by Zr addition. The Ti-29Nb-13Zr-2Cr alloy presents a Young's modulus of 63 GPa, tensile strength of 730 MPa and elongation of 18% and is a promising biomedical material.

机译：制备了一系列Ti-29NB-（4,7,10,13）ZR-2CR合金，以研究Zr含量对微观结构和机械性能的影响。所有四种合金均在溶液处理后呈现单一β相。随着Zr含量的增加，0.2％的证据应力在Ti-29NB-13ZR-2Cr中的Ti-29nb-4zR-2Cr中的388MPa逐渐增加至713MPa。在Ti-29NB-4ZR-2CR中的80GPa中，杨氏模量逐渐从TI-29NB-13ZR-2CR中的83GPa降低至63GPa。伸长率表现出与杨氏模量相同的趋势。机械性能的变化受到β稳定性和固溶强化效果的影响，其均通过ZR加入增强。 TI-29NB-13ZR-2CR合金呈现为63gPa的杨氏模量，拉伸强度为730MPa，伸长率为18％，是一种有前途的生物医学材料。

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《Journal of Materials Engineering and Performance》 |2020年第5期|共8页
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正文语种 eng
中图分类金属学与金属工艺;工程材料学;
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beta-type Ti alloys; biomaterial; mechanical properties; microstructure;

机译：β型Ti合金;生物材料;机械性能;微观结构;

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专利

1. Low Young's Modulus and High Strength Obtained in Ti-Nb-Zr-Cr Alloys by Optimizing Zr Content [J] . Journal of Materials Engineering and Performance . 2020,第5期

机译：通过优化Zr含量，在Ti-Nb-Zr-Cr合金中获得的低杨氏模量和高强度
2. Improvement in Fatigue Strength of Biomedical β-type Ti–Nb–Ta–Zr Alloy While Maintaining Low Young’s Modulus Through Optimizing ω-Phase Precipitation [J] . Metallurgical and Materials Transactions A . 2012,第1期

机译：通过优化ω相析出，在保持低杨氏模量的同时提高生物医学β型Ti–Nb–Ta–Zr合金的疲劳强度
3. Improvement in Fatigue Strength of Biomedical /Mype Ti-Nb-Ta-Zr Alloy While Maintaining Low Young's Modulus Through Optimizing co-Phase Precipitation [J] . MASAAKI NAKAI, MITSUO NIINOMI, TAKAHIRO ONEDA Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2012,第1期

机译：通过优化同相沉淀，在保持低杨氏模量的同时提高生物医学/ Mype Ti-Nb-Ta-Zr合金的疲劳强度
4. Achieving high strength and low Young's modulus by controlling the beta stabilizers content in Ti-Nb-Ta-Zr-O alloys [C] . D. Preisler, J. Strasky, M. Janovska World Conference on Titanium . 2020

机译：通过控制Ti-Nb-Ta-Zr-O合金中的β稳定剂含量来实现高强度和低杨氏模量
5. The Effect of Ultrasonic Nano-crystal Surface Modification on Residual Stress, Microstructure and Fatigue Behavior of a Low Modulus Ti-35Nb-7Zr-5Ta-0.3O% Alloy [D] . Jagtap, Rohit 2016

机译：超声纳米晶体表面改性对低模量Ti-35Nb-7Zr-5Ta-0.3O％合金的残余应力，微观结构和疲劳行为的影响
6. Effect of Zr Content on Phase Stability Deformation Behavior and Young’s Modulus in Ti–Nb–Zr Alloys [O] . Kyong Min Kim, Hee Young Kim, Shuichi Miyazaki 2020

机译：Zr含量对Ti-Nb-Zr合金相稳定性变形行为和杨氏模量的影响
7. Improvement in Fatigue Strength of Biomedical beta;-Type Tindash;Nbndash;Tandash;Zr Alloy while Maintaining Low Youngrsquo;s Modulus through Optimizing omega;-Phase Precipitation [O] . Masaaki Nakai, Mitsuo Niinomi, Takahiro Oneda 2011

机译：通过优化ω相沉淀，改善生物医学β型Ti-Nb-Ta-Ti-Ta-Ta-Ti-Ti-Zr合金的疲劳强度，同时保持低杨氏模量
8. The Effect of Hydrogen Content in Austenite Welds on the Tendency to Cleavage Fracture of Low-Alloy Steel Welds (Vliyanie Soderzhaniya Vodoroda v Austenitnykh Shvakh na Sklonnost'k Khrupkim Razrusheniam Svarnykh Soyedinenii Nizkolegirovannykh Staley). [R] . Borovushkin, I. V., Grishchenko, L. V., Kaletina, T. V., 1975

机译：奥氏体焊缝中氢含量对低合金钢焊缝解理断裂趋势的影响（Vliyanie soderzhaniya Vodoroda v austenitnykh shvakh na sklonnost'k Khrupkim Razrusheniam svarnykh soyedinenii Nizkolegirovannykh staley）。

Low Young's Modulus and High Strength Obtained in Ti-Nb-Zr-Cr Alloys by Optimizing Zr Content

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