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Solid-State Phase Transformations in Thermally Treated Ti–6Al–4V Alloy Fabricated via Laser Powder Bed Fusion

机译：通过激光粉末床熔合制备的热处理Ti–6Al–4V合金中的固态相变

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Laser Powder Bed Fusion (LPBF) technology was used to produce samples based on the Ti–6Al–4V alloy for biomedical applications. Solid-state phase transformations induced by thermal treatments were studied by neutron diffraction (ND), X-ray diffraction (XRD), scanning transmission electron microscopy (STEM) and energy-dispersive spectroscopy (EDS). Although, ND analysis is rather uncommon in such studies, this technique allowed evidencing the presence of retained β in α’ martensite of the as-produced (#AP) sample. The retained β was not detectable by XRD analysis, nor by STEM observations. Martensite contains a high number of defects, mainly dislocations, that anneal during the thermal treatment. Element diffusion and partitioning are the main mechanisms in the α ↔ β transformation that causes lattice expansion during heating and determines the final shape and size of phases. The retained β phase plays a key role in the α’ → β transformation kinetics.

机译：激光粉末床融合（LPBF）技术用于生产基于Ti-6Al-4V合金的样品，用于生物医学应用。通过中子衍射（ND），X射线衍射（XRD），扫描透射电子显微镜（STEM）和能量色散谱（EDS）研究了热处理引起的固态相变。尽管ND分析在此类研究中并不常见，但该技术可以证明所生成样品（#AP）的α'马氏体中存在残留的β。通过XRD分析或STEM观察都无法检测到残留的β。马氏体含有大量在热处理过程中退火的缺陷，主要是位错。元素的扩散和分配是α↔β转变的主要机制，该转变导致加热过程中晶格膨胀并确定最终的相态和尺寸。保留的β相在α′→β转变动力学中起关键作用。

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期刊名称 Materials
作者
Paolo Mengucci; Eleonora Santecchia; Andrea Gatto; Elena Bassoli; Antonella Sola; Corrado Sciancalepore; Bogdan Rutkowski; Gianni Barucca;
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作者单位

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年(卷),期 2019(12),18
年度 2019
页码 2876
总页数 14
原文格式 PDF
正文语种
中图分类外科学;
关键词
Ti alloys phase transformations additive manufacturing thermal treatments neutron diffraction X-ray diffraction scanning transmission electron microscopy energy-dispersive spectroscopy;

机译：钛合金;相变;增材制造;热处理;中子衍射;X射线衍射;扫描透射电子显微镜;能量色散光谱;
入库时间 2022-08-17 11:42:54

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5. In situ alloying based laser powder bed fusion processing of β Ti-Mo alloy to fabricate functionally graded composites [J] . Duan Ranxi, Li Sheng, Cai Biao, Composites. B, Engineering . 2021,第Octa1期

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7. Laser Powder Bed Fusion of Ti-rich TiNi lattice structures: Process optimisation, geometrical integrity, and phase transformations [J] . Tan Chaolin, Li Sheng, Essa Khamis, International Journal of Machine Tools & Manufacture: Design, research and application . 2019,第期

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8. TENSILE AND FATIGUE PROPERTIES OF Ti-6AI-4V ALLOY FABRICATED BY LASER POWDER-BED FUSION PROCESS [C] . M Shafiqur Rahman, Uttam K. Chakravarty ASME International Mechanical Engineering Congress and Exposition . 2020

机译：激光粉床融合工艺制造Ti-6ai-4V合金的拉伸和疲劳性能
9. Effects of fabrication conditions on mechanical properties of Ti-6Al-4V fabricated by powder bed fusion additive manufacturing. [D] . Azani, Paola. 2016

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11. Mechanical properties of diamond lattice Ti–6Al–4V structures produced by laser powder bed fusion: On the effect of the load direction [O] . Antonio Cutolo, Bert Engelen, Wim Desmet, 2020

机译：激光粉床融合产生的金刚石晶格Ti-6AL-4V结构的机械性能：负载方向的影响

Solid-State Phase Transformations in Thermally Treated Ti–6Al–4V Alloy Fabricated via Laser Powder Bed Fusion

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