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成型方向和元素分配对激光烧结制备的生物医学Ti-6Al-4V合金微观结构和力学性能的影响

Effects of build orientation and element partitioning on microstructure and mechanical properties of biomedical Ti-6Al-4V alloy produced by laser sintering.

作者信息

Mengucci P, Gatto A, Bassoli E, Denti L, Fiori F, Girardin E, Bastianoni P, Rutkowski B, Czyrska-Filemonowicz A, Barucca G

机构信息

Dipartimento SIMAU, Università Politecnica delle Marche, 60131 Ancona, Italy.

Dipartimento DIEF, Università di Modena e Reggio Emilia, Via Vivarelli 10, 41125 Modena, Italy.

出版信息

J Mech Behav Biomed Mater. 2017 Jul;71:1-9. doi: 10.1016/j.jmbbm.2017.02.025. Epub 2017 Feb 24.

Abstract

Direct Metal Laser Sintering (DMLS) technology was used to produce tensile and flexural samples based on the Ti-6Al-4V biomedical composition. Tensile samples were produced in three different orientations in order to investigate the effect of building direction on the mechanical behavior. On the other hand, flexural samples were submitted to thermal treatments to simulate the firing cycle commonly used to veneer metallic devices with ceramics in dental applications. Roughness and hardness measurements as well as tensile and flexural mechanical tests were performed to study the mechanical response of the alloy while X-ray diffraction (XRD), electron microscopy (SEM, TEM, STEM) techniques and microanalysis (EDX) were used to investigate sample microstructure. Results evidenced a difference in the mechanical response of tensile samples built in orthogonal directions. In terms of microstructure, samples not submitted to the firing cycle show a single phase acicular α' (hcp) structure typical of metal parts subject to high cooling rates. After the firing cycle, samples show a reduction of hardness and strength due to the formation of laths of the β (bcc) phase at the boundaries of the primary formed α' plates as well as to lattice parameters variation of the hcp phase. Element partitioning during the firing cycle gives rise to high concentration of V atoms (up to 20wt%) at the plate boundaries where the β phase preferentially forms.

摘要

采用直接金属激光烧结(DMLS)技术,基于Ti-6Al-4V生物医学成分制备拉伸和弯曲试样。为了研究构建方向对力学行为的影响,制备了三种不同取向的拉伸试样。另一方面,对弯曲试样进行热处理,以模拟牙科应用中常用的用陶瓷覆盖金属器件的烧制周期。进行粗糙度和硬度测量以及拉伸和弯曲力学测试,以研究合金的力学响应,同时使用X射线衍射(XRD)、电子显微镜(SEM、TEM、STEM)技术和微分析(EDX)来研究样品的微观结构。结果表明,沿正交方向构建的拉伸试样的力学响应存在差异。在微观结构方面,未经过烧制周期的样品呈现出典型的受高冷却速率影响的金属部件的单相针状α'(hcp)结构。经过烧制周期后,由于在初生α'板的边界处形成β(bcc)相的板条以及hcp相的晶格参数变化,样品的硬度和强度降低。烧制周期中的元素分配导致在优先形成β相的板边界处V原子浓度很高(高达20wt%)。

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