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Effect of Cooling Rate on Phase Transformation and Microstructure Evolution in a Large Size Forged Ingot of Medium Carbon Low Alloy Steel

机译：冷却速度对中碳低合金钢大尺寸铸锭相变和组织演变的影响

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In the present study, the influence of cooling rate on the kinetics of phase transformation is investigated in large size forged ingots made of medium carbon low alloy steel. In particular, the volume fraction of martensite after quenching is determined. Dilatometry tests were conducted on Gleeble® 3800 thermomechanical simulator to determine the transformation temperatures and identify the phases after different heat treatment cycles. The heat treatment tests were carried out at 900 °C with a heating rate of 5 °C/s, followed by holding for 1800 s after which the samples were cooled at 3 and 15 °C/s. Optical and electron microscopic analyses, X-Ray Diffraction and micro-hardness measurements were utilized to identify and quantify the volume fraction of martensite and retained austenite for each condition. The calculated volume fraction of martensite using mathematical analysis was compared with those calculated by Koistinen-Marburger equation.

机译：在本研究中，研究了中碳低合金钢制成的大尺寸锻造铸锭的冷却速率对相变动力学的影响。特别地，确定淬火后的马氏体的体积分数。在Gleeble®3800热机械模拟器上进行了膨胀计测试，以确定转变温度并确定不同热处理周期后的相。热处理测试在900°C下以5°C / s的加热速率进行，然后保持1800 s，之后将样品分别以3和15°C / s的速度冷却。利用光学和电子显微镜分析，X射线衍射和显微硬度测量来识别和量化每种条件下马氏体和残余奥氏体的体积分数。将使用数学分析计算出的马氏体体积分数与通过Koistinen-Marburger方程计算出的体积分数进行比较。

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《TMS annual meeting exhibition》|2017年|413-423|共11页
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作者
Emna Ben Fredj; Hadi Ghasemi Nanesa; Davood Shahriari; Jean-Benoit Morin; Mohammad Jahazi;
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关键词
Dilatometry; Phase transformation; Martensite Koistinen-Marburger equation;

机译：膨胀计;相变;马氏体Koistinen-Marburger方程;

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1. Determination of Thermal Effects of Diffusionless Phase Transformations in Low-Carbon Low-Alloy Steels at High Cooling Rates [J] . I. A. Artemev, M. L. Krasnov, G. M. Rusakov, Diagnostics, Resource and Mechanics of Materials and Structures . 2018,第6期

机译：高冷却速率下低碳低合金钢无扩散相变热效应的确定
2. Texture evolution in thermomechanically control processed multiphase medium carbon microalloyed steel:Forged, rolled and low cycle fatigued microstructures [J] . S. Sankaran, Satyam Suwas Materials science forum . 2012,第PTa1期

机译：热力学控制的多相中碳微合金钢的热力学控制：锻造，轧制和低周疲劳组织
3. Isochronal Phase Transformations of Low-Carbon High Strength Low Alloy Steel upon Continuous Cooling [J] . Jie Huo, Yongchang Liu, Dantian Zhang, Steel Research International . 2013,第2期

机译：低碳高强度低合金钢连续冷却时的等时相变
4. Effect of Cooling Rate on Phase Transformation and Microstructure Evolution in a Large Size Forged Ingot of Medium Carbon Low Alloy Steel [C] . Emna Ben Fredj, Hadi Ghasemi Nanesa, Davood Shahriari, TMS Annual Meeting Exhibition . 2017

机译：冷却速率对大型碳低合金钢锻造铸锭相变与微观结构演化的影响
5. Microstructure Evolution and Optimization of the Tempering Heat Treatment of a Medium-Carbon Low-alloy Steel =Evaluation de la microstructure et optimisation du traitement de revenu des aciers faiblement alliés [D] . Talebi, Seyyed Hesamodin . 2018

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6. Dynamic reverse phase transformation induced high-strain-rate superplasticity in low carbon low alloy steels with commercial potential [O] . Wenquan Cao, Chongxiang Huang, Chang Wang, -1

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7. Influence of tempered microstructures on the transformation behaviour of cold deformed and intercritically annealed medium carbon low alloy steel [O] . Kenneth Kanayo Alaneme 2010

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8. Phase transformations and microstructure development in low alloy steel welds [R] . Babu, S. S. , David, S. A. , Vitek, J. M. 1995

机译：低合金钢焊缝的相变和微观组织发展

Effect of Cooling Rate on Phase Transformation and Microstructure Evolution in a Large Size Forged Ingot of Medium Carbon Low Alloy Steel

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