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Influence of Tempering Treatment on Precipitation Behavior, Microstructure, Dislocation Density and Hydrogen-Induced Ductility Loss in High-Vanadium Hot-Rolled X80 Pipeline Steel

机译：回火处理对X80高钒热轧管线钢析出行为，组织，位错密度和氢致延展性的影响

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In this study, precipitation behavior with different vanadium contents before and after tempering process and their effects on hydrogen diffusion and hydrogen-induced plastic loss were investigated in high-vanadium hot-rolled X80 pipeline steel. The results showed that the microstructure transformed from lath bainite, ferrite to granular bainite, massive ferrite and a small amount of M/A constituents after tempering treatment. Besides, the number of nanoscale precipitates obviously increased. These fine precipitates can fix a large amount of diffusible H atoms as traps and reduce the damage of hydrogen. The hydrogen diffusion coefficient in as-tempered sample decreased using hydrogen permeation test. Moreover, after tempering treatment, the dislocation density distinctly decreased, which significantly improved the resistance to hydrogen-induced ductility loss.

机译：本研究研究了高钒热轧X80管线钢在回火前后不同钒含量的析出行为及其对氢扩散和氢致塑性损失的影响。结果表明，回火处理后的组织由板条贝氏体，铁素体转变为粒状贝氏体，块状铁素体和少量的M / A成分。此外，纳米级沉淀物的数量明显增加。这些细小的沉淀物可以将大量可扩散的H原子固定为陷阱，并减少氢的破坏。使用氢气渗透测试，回火样品中的氢气扩散系数降低。此外，经过回火处理后，位错密度明显降低，这显着提高了对氢致延展性损失的抵抗力。

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《TMS annual meeting exhibition》|2019年|1111-1122|共12页
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Longfei Li; Bo Song; Zeyun Cai; Zhen Liu; Xiaokang Cui;
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Tempering; Precipitation; Hydrogen-induced ductility loss; Dislocation density;

机译：回火沉淀;氢致延展性损失;位错密度;

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专利

1. Effects of finish rolling deformation on hydrogen -induced cracking and hydrogen-induced ductility loss of high-vanadium TMCP X80 pipeline steel [J] . Li Longfei, Song Bo, Cui Xiaokang, International journal of hydrogen energy . 2020,第55期

机译：表面轧制变形对高钒TMCP X80管线钢氢致裂解和氢诱导的延展性损失的影响
2. Effect of vanadium content on hydrogen diffusion behaviors and hydrogen induced ductility loss of X80 pipeline steel [J] . Li Longfei, Song Bo, Cai Zeyun, Materials Science and Engineering . 2019,第JANa10期

机译：钒含量对X80管线钢氢扩散行为和氢致延展性损失的影响
3. The effect of heat treatment on recrystallized microstructure, precipitation and ductility of hot-rolled Fe-Cr-Al-REM ferritic stainless steel sheets [J] . H.P. Qu, Y.P. Lang, CF. Yao, Materials Science and Engineering . 2013,第FEBa1期

机译：热处理对热轧Fe-Cr-Al-REM铁素体不锈钢板的再结晶组织，析出和延展性的影响
4. Influence of Tempering Treatment on Precipitation Behavior, Microstructure, Dislocation Density and Hydrogen-Induced Ductility Loss in High-Vanadium Hot-Rolled X80 Pipeline Steel [C] . Longfei Li, Bo Song, Zeyun Cai, TMS Annual Meeting amp;amp;amp;amp;amp;amp;amp;amp;amp; Exhibition . 2019

机译：回火处理对高钒热轧X80管钢沉淀行为，微观结构，位错密度和氢诱导延展性损失的影响
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

机译：中碳低合金钢回火热处理的微观结构演化与优化=沟壑盟军艺术家的微观结构和优化评价
6. Effect of Tempering Temperature after Thermo-Mechanical Control Process on Microstructure Characteristics and Hydrogen-Induced Ductility Loss in High-Vanadium X80 Pipeline Steel [O] . Longfei Li, Bo Song, Biwen Yang, 2020

机译：热机械控制工艺后的回火温度对高钒X80管线钢的组织性能和氢致延展性的影响
7. Crack Initiation and Propagation Behavior of Hydrogen-induced Quasi-cleavage Fracture in X80 Pipeline Steel with Stress Concentration [O] . Tomoka Homma, Seiya Anata, Shoma Onuki, 2020

机译：X80管线钢中氢诱导准切割骨折的裂纹启动及传播行为，应力集中

Influence of Tempering Treatment on Precipitation Behavior, Microstructure, Dislocation Density and Hydrogen-Induced Ductility Loss in High-Vanadium Hot-Rolled X80 Pipeline Steel

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