Physical Simulation and Experimental Examination of epsilon-Cu Particles Dissolution Evolution During Welding of Copper Precipitation Strengthening Steel

WANG Qing-feng; SHANG Cheng-jia; CHEN Da-wei

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Physical Simulation and Experimental Examination of epsilon-Cu Particles Dissolution Evolution During Welding of Copper Precipitation Strengthening Steel

机译：铜析出强化钢焊接过程中ε-Cu颗粒溶解演变的物理模拟与实验研究

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The kinetics of epsilon-Cu particles dissolution in the matrix during welding of a copper-precipitation strengthening steel was determined by a combination of Gleeble~(TM) physical simulation, TEM examination and hardness measurement. The epsilon-Cu particles underwent a coarsening and part dissolution and then complete dissolution reaction as the peak temperature increased from 750 to 1 000°C , which resulted in the decrease in the number density of epsilon-Cu particles and hardness in the heat-affected zone (HAZ). The results can be used to understand the evolution of this transformation and a softening behavior of the HAZ during welding of this type of steel.

机译：结合GleebleTM物理模拟，TEM检查和硬度测量，确定了铜沉淀强化钢在焊接过程中ε-Cu颗粒在基体中溶解的动力学。随着峰值温度从750升高到1000°C，ε-Cu颗粒经历了粗化和部分溶解，然后完成了溶解反应，这导致ε-Cu颗粒的数量密度和热影响硬度降低区域（HAZ）。结果可用于了解这种相变的演变以及在此类钢的焊接过程中热影响区的软化行为。

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《Journal of iron and steel research》 |2007年第6期|共5页
作者
WANG Qing-feng; SHANG Cheng-jia; CHEN Da-wei;
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正文语种 eng
中图分类冶金工业;
关键词
epsilon-Cu particle dissolution; hardness; kinetics; steel; welding; physical simulation;

机译：ε-Cu颗粒溶解;硬度;动力学;钢;焊接;物理模拟;

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1. Physical Simulation and Experimental Examination of epsilon-Cu Particles Dissolution Evolution During Welding of Copper Precipitation Strengthening Steel [J] . WANG Qing-feng, SHANG Cheng-jia, CHEN Da-wei Journal of iron and steel research . 2007,第6期

机译：铜析出强化钢焊接过程中ε-Cu颗粒溶解演变的物理模拟与实验研究
2. Consideration of particle-strengthening mechanism of copper-precipitation-strengthened steels by atom probe tomography analysis [J] . J. Takahashi, K. Kawakami, Y. Kobayashi Materials Science and Engineering . 2012,第Feba15期

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3. Experimental evaluation of the particle size dependence of the dislocation-particle interaction force in TiC-precipitation-strengthened steel [J] . Y. Kobayashi, J. Takahashi, K. Kawakami Scripta materialia . 2012,第10期

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Physical Simulation and Experimental Examination of epsilon-Cu Particles Dissolution Evolution During Welding of Copper Precipitation Strengthening Steel

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