Early plastic deformation behaviour and energy absorption in porous beta-type biomedical titanium produced by selective laser melting

Liu Y. J.; Li S. J.; Zhang L. C.; Hao Y. L.; Sercombe T. B.

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Early plastic deformation behaviour and energy absorption in porous beta-type biomedical titanium produced by selective laser melting

机译：通过选择性激光熔化产生多孔β型生物医学钛的早期塑性变形行为和能量吸收

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Energy absorption is a critical consideration in the design of porous structures design. This work studied the energy absorption mechanism of three porous structures (i.e. cubic, topology optimised and rhombic dodecahedron) at the early stage of deformation. Stress distribution results, obtained by finite element modelling, coupled with the investigation of the slip bands generated have been used to reveal the plasticity mechanism and local stress concentrations for each structure. The topology optimised structure exhibits the best balance of bending and buckling stress with a high elastic energy absorption, a low Young's modulus (similar to 2.3 GPa) and a high compressive strength (similar to 58 MPa). (C) 2018 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

机译：能量吸收是多孔结构设计设计的批判性考虑因素。这项工作研究了三个多孔结构的能量吸收机制（即立方，拓扑优化和菱形十二锭）在变形的早期阶段。通过有限元建模获得的应力分布结果与产生的滑带的研究相结合，用于揭示每个结构的可塑性机制和局部应力浓度。拓扑优化结构具有弯曲和屈曲应力的最佳平衡，具有高弹性能量吸收，低杨氏模量（类似于2.3 GPA）和高抗压强度（类似于58MPa）。（c）2018 Acta Materialia Inc. elsevier有限公司出版。保留所有权利。

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来源
《Scripta materialia》 |2018年第2018期|共5页
作者
Liu Y. J.; Li S. J.; Zhang L. C.; Hao Y. L.; Sercombe T. B.;
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作者单位

Univ Western Australia Sch Mech &

Chem Engn 35 Stirling Highway Perth WA 6009 Australia;

Edith Cowan Univ Sch Engn 270 Joondalup Dr Perth WA 6027 Australia;

Chinese Acad Sci Inst Met Res Shenyang Natl Lab Mat Sci 72 Wenhua Rd Shenyang 110016 Liaoning Peoples R China;

Univ Western Australia Sch Mech &

Chem Engn 35 Stirling Highway Perth WA 6009 Australia;

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原文格式 PDF
正文语种 eng
中图分类冶金工业;
关键词
Selective laser melting; beta titanium; Porous structures; Energy absorption; Local stress concentrations;

机译：选择性激光熔化;β钛;多孔结构;能量吸收;局部应力浓度;

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专利

1. Early plastic deformation behaviour and energy absorption in porous beta-type biomedical titanium produced by selective laser melting [J] . Liu Y. J., Li S. J., Zhang L. C., Scripta materialia . 2018,第期

机译：通过选择性激光熔化产生多孔β型生物医学钛的早期塑性变形行为和能量吸收
2. Crystal structure and nanotopographical features on the surface of heat-treated and anodized porous titanium biomaterials produced using selective laser melting [J] . S.Amin Yavari, R. Wauthle, A.J. Boettger, Applied Surface Science . 2014,第jana30期

机译：使用选择性激光熔化制备的经过热处理和阳极氧化的多孔钛生物材料表面的晶体结构和纳米形貌特征
3. The biocompatibility of dense and porous Nickel-Titanium produced by selective laser melting [J] . T. Habijan, C Haberland, H. Meier, Materials science & engineering . 2013,第1期

机译：选择性激光熔化产生的致密且多孔的镍钛合金的生物相容性
4. MICRO-ARC OXIDATION PROCESS OF THE POROUS TITANIA COATING ON TITANIUM ALLOY PRODUCED BY SELECTIVE LASER MELTING [C] . Ye Wang, Guolong Wu, Min Sun, International Congress on Applications of Lasers Electro-Optics . 2018

机译：选择性激光熔化产生的钛合金对多孔二氧化钛涂层的微电弧氧化过程
5. Surface Integrity and Energy Consumption in Machining of Inconel 718 Produced by Selective Laser Melting [D] . Brown, Daniel. 2017

机译：通过选择性激光熔化产生的Inconel 718加工的表面完整性和能耗
6. Selective laser melting of titanium alloy enables osseointegration of porous multi-rooted implants in a rabbit model [O] . Wei Peng, Liangwei Xu, Jia You, 2016

机译：钛合金的选择性激光熔化可实现多孔多根植入物在兔模型中的骨整合
7. Selective laser melting-produced porous titanium scaffolds regenerate bone in critical size cortical bone defects [O] . Stok J. (Johan) van der, Jagt O.P. (Olav) van der, Amin Yavari S. (Saber), 2013

机译：选择性激光熔融生产的多孔钛支架可再生临界尺寸的皮质骨缺损中的骨

Early plastic deformation behaviour and energy absorption in porous beta-type biomedical titanium produced by selective laser melting

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