The Study on Welding HAZ Microstructure of SAF 2507 Duplex Stainless Steel by Simulation Tests

Ren-long Tao; Jie Liu; Guang-wei Fan; Xu Chang

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The Study on Welding HAZ Microstructure of SAF 2507 Duplex Stainless Steel by Simulation Tests

机译：SAF 2507双相不锈钢焊接HAZ组织的模拟试验研究。

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Thermal simulation by GLEEBLE3800 is adopted to obtain the simulated welding HAZ microstructures in SAF 2507 duplex stainless steel with the GLEEBLE3800 thermal simulation machine. The simulation peak temperatures are 800℃, 900℃, 950℃, 1000℃, 1050℃ and 1100℃, The cooling velocities are t_(12/8)=3.6s, 7s, 20s and 40s (t_(12/8) is cooling time of 1200℃ to 800℃ which is used to describe the cooling rate). The results indicate that the peak temperatures have significant influence on the microstructures of austenite and ferrite. At 900℃, the content of o phase precipitation reaches the maximum, which is distributed mainly in a or at α/γ junction. When the temperature is set above 1050℃, the σ phase disappears. A faster cooling rate passing through 800～1050℃ is required to avoid brittle σ phase precipitation.

机译：采用GLEEBLE3800进行热模拟，通过GLEEBLE3800热模拟机获得了SAF 2507双相不锈钢的模拟焊接热影响区组织。模拟峰值温度为800℃，900℃，950℃，1000℃，1050℃和1100℃，冷却速度为t_（12/8）= 3.6s，7s，20s和40s（t_（12/8）为冷却时间为1200℃至800℃，用于描述冷却速率）。结果表明，峰值温度对奥氏体和铁素体的显微组织有显着影响。在900℃时，o相沉淀的含量达到最大值，主要分布在α/γ结或α/γ结处。当温度设定在1050℃以上时，σ相消失。为了避免脆性的σ相析出，需要在800〜1050℃范围内有较快的冷却速度。

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来源
《Materials science forum》 |2015年第2015期|277-280|共4页
作者
Ren-long Tao; Jie Liu; Guang-wei Fan; Xu Chang;
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作者单位

School of Materials Science and Engineering, Taiyuan University of Science and Technology, Taiyuan, 030024, China;

School of Materials Science and Engineering, Taiyuan University of Science and Technology, Taiyuan, 030024, China;

Taiyuan Iron and Steel (Group) Company Ltd, Taiyuan, 030003, China;

School of Materials Science and Engineering, Taiyuan University of Science and Technology, Taiyuan, 030024, China;

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原文格式 PDF
正文语种 eng
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关键词
duplex stainless steel; thermal simulation; HAZ; σ phase;

机译：双相不锈钢;热模拟HAZ;σ相;

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机译：saF 2507双相不锈钢焊接HaZ微观组织的模拟试验研究

The Study on Welding HAZ Microstructure of SAF 2507 Duplex Stainless Steel by Simulation Tests

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