Улучшение физико-механических характеристик нелегированного титана ВТ1-0 и исследование влияния на них режимов селективного лазерного сплавления

Журнал технической физики Pub Date : 2023-01-01 DOI:10.21883/jtf.2023.02.54499.209-22

М. Ю. Грязнов, С. В. Шотин, Владимир Николаевич Чувильдеев, А. Н. Сысоев, Н. В. Мелехин, А. В. Пискунов, Н. В. Сахаров, А.В. Семенычева, А. А. Мурашов

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Abstract

Comprehensive studies of the physical and mechanical properties and structure of VT1-0 titanium samples processed by selective laser melting have been carried out. High strength characteristics (the ultimate tensile strength of 820 MPa, the yield strength of 710 MPa) have been achieved. These values exceed by 2 times the values for this material produced using conventional technology. The formation of the martensitic αʹ-phase, obtained due to the high crystallization rates realized in selective laser melting process, is the reason for the increase in the mechanical characteristics of titanium VT1-0. Mechanical characteristics of titanium VT1-0 subjected to high-temperature annealing demonstrated a monotonous decrease in strength parameters by 15% and an increase in plastic characteristics by 30%. It is shown that the technology of selective laser melting makes it possible to solve the problem of improving the strength characteristics of unalloyed titanium to create a new class of medical devices.

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改进非法泰坦vt1 -0的物理机械特性，并研究选择性激光融合模式对它们的影响。

对选择性激光熔化处理的VT1-0钛样品的物理力学性能和结构进行了全面的研究。获得了高强度特性(极限抗拉强度820 MPa，屈服强度710 MPa)。这些值超过了使用传统技术生产这种材料的值的2倍。选择性激光熔化过程中结晶速率高，导致马氏体α′相的形成，是导致VT1-0钛合金力学性能提高的原因。钛合金VT1-0经高温退火后的力学性能表现为强度参数单调下降15%，塑性特性增加30%。结果表明，选择性激光熔化技术可以解决提高非合金钛强度特性的问题，从而创造出一类新的医疗器械。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Журнал технической физики

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