Ti-6Al-4V中热驱动β晶粒生长、片状和马氏体的微观结构建模

材料科学建模与数值模拟(英文) Pub Date : 2020-06-22 DOI:10.4236/mnsms.2020.103004

M. Villa, J. Brooks, R. Turner, M. Ward

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引用次数: 3

摘要

通过一系列恒温速率控制热处理，研究了Ti-6Al-4V合金β场中β晶粒生长的显微组织动力学。考虑5℃/s、50℃/s和500℃/s的加热速率，在不同的峰值温度停止。通过将材料浸泡在其β-横截面温度以上，并分别在5°C/s、50°C/s、100°C/s和300°C/s冷却至室温，研究了冷却时形成的马氏体针状体和片层状α板条的厚度演变。采用定量显微组织分析方法测定颗粒尺寸。用改进的Avrami方程可以较好地描述β晶粒生长动力学。α片层厚度是冷却速率和成核的β晶粒尺寸的函数。马氏体针状体的厚度是材料冷却速率的函数。

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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Microstructural Modeling of Thermally-Driven β Grain Growth, Lamellae & Martensite in Ti-6Al-4V

The microstructural kinetics of β grain growth in the β field of a Ti-6Al-4V alloy was studied by a series of controlled heat treatments at constant temperature rates. Heating rates of 5°C/s, 50°C/s and 500°C/s were considered, stopping at different peak temperatures. The thickness evolution of martensitic needles and lamellar α laths, formed on cooling, was also investigated, by soaking the material above its β-transus temperature and cooling down at 5°C/s, 50°C/s, 100°C/s and 300°C/s till ambient temperature. Quantitative microstructural analyses were used to measure the particle dimensions. The β grain growth kinetics was reasonably well described by a modified Avrami equation. The thickness of α lamellae was a function of the cooling rate and the β grain dimension in which they nucleated. The martensite needle thickness was shown to be a function of the cooling rate to which the material was subjected.

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材料科学建模与数值模拟(英文)

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