Ailing Wang , Xiaoran Tian , Shuaihua Wang , Xiao Xing , Jianguo Liu , Gan Cui , Yi Zhang
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引用次数: 0
摘要
采用实验测试和分子动力学模拟研究了镍浓度对管线钢韧性和抗氢脆性能的影响。在空气和电化学充氢条件下进行了慢应变速率试验(SSRT)。结果表明,当 Ni 浓度低于 1 % 时,钢的拉伸韧性、冲击韧性和抗氢脆性都会增加;当 Ni 浓度超过 1 % 时,钢的拉伸韧性、冲击韧性和抗氢脆性都会降低。此外,镍浓度的增加会导致铁镍合金的自由表面能和堆积断层能降低。由于镍对堆叠断层能的影响更大,因此有利于位错发射,从而有助于释放应变能。然而,当镍浓度超过 1 % 时,就会形成对氢脆敏感的碳化物。因此,当镍浓度高于 1 % 时,钢的韧性和抗氢脆性能都会下降。
Study of the nickel concentration effect on toughness and hydrogen embrittlement resistance of pipeline steel
Experimental tests and molecular dynamics simulations were employed to investigate the effect of Ni concentration on the toughness and hydrogen embrittlement resistance of pipeline steel. A slow strain rate test (SSRT) was conducted under both air and electrochemical hydrogen charging conditions. The results indicate that the tensile toughness, impact toughness, and hydrogen embrittlement resistance of steel increase when Ni concentration is less than 1 %, followed by a decrease when Ni concentration exceeds 1 %. Additionally, an increase in Ni concentration leads to a reduction in both the free surface energy and stacking fault energy of Fe-Ni alloys. Since Ni has a greater influence on the stacking fault energy, dislocation emission is facilitated, which aids in releasing strain energy. However, when the Ni concentration surpasses 1 %, the formation of carbides, which are sensitive to hydrogen embrittlement, occurs. Consequently, when the Ni concentration is higher than 1 %, the toughness and hydrogen embrittlement resistance of steel decrease.
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