Continuousness of interactions between hydrogen and plastic deformation of ultra-high strength steel sheet consisting of ferrite and nanometer-sized precipitates

IF 1.2 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
Katsutoshi Takashima, R. Han, K. Yokoyama, Y. Funakawa
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Abstract

ABSTRACT The continuousness of the interactions between hydrogen and plastic deformation of an ultra-high strength steel sheet consisting of ferrite and nanometer-sized precipitates has been investigated by tensile tests after or during cathodic hydrogen charging. In the tensile test in the air after hydrogen pre-charging, a hydrogen thermal desorption analysis shows that the amount of hydrogen desorbed decreases with increasing applied tensile strain from room temperature to 50 °C, but increases in the high temperature region. Upon tensile straining to 0.06, no hydrogen is desorbed in the low temperature region, and the change in desorption behaviour when strain exceeds 0.06 is negligible. This suggests that substantial interactions between hydrogen and plastic deformation in the test with hydrogen pre-charging occur only in the early stages of deformation. In contrast, in the tensile test during hydrogen charging, the hydrogen desorption which begins from room temperature continues even upon tensile straining to 0.06, suggesting continuous interactions, and a unique dislocation structure resembling sub-grain boundaries is observed. Upon aging at room temperature after tensile straining to 0.06 during hydrogen charging, all hydrogen desorption lower than 100 °C shifts to the high temperature region, but the recovery of elongation is not necessarily complete. When tensile strain is applied during hydrogen charging, continuous interactions presumably induce anomalous damage, thereby enhancing the degradation of ductility. The results of the present study strongly support the conclusion that the continuousness of the dynamic interactions between hydrogen and plastic deformation plays essential roles in hydrogen embrittlement of ferritic steel.
由铁素体和纳米沉淀物组成的超高强度钢板塑性变形与氢相互作用的连续性
通过拉伸试验研究了由铁素体和纳米析出物组成的超高强度钢板在阴极充氢后和充氢过程中氢与塑性变形之间相互作用的连续性。在预充氢后的空气拉伸试验中,氢热解吸分析表明,从室温到50℃,随着施加拉伸应变的增加,解吸氢量减少,但在高温区域增加。当拉伸应变达到0.06时,在低温区没有氢的解吸,当应变超过0.06时,解吸行为的变化可以忽略不计。这表明,在氢气预充的试验中,氢气与塑性变形之间的实质性相互作用仅发生在变形的早期阶段。而在充氢过程中的拉伸试验中,从室温开始的氢脱附即使拉伸应变达到0.06也仍在继续,表明相互作用是连续的,并且观察到一种独特的类似亚晶界的位错结构。在充氢过程中拉伸应变至0.06,室温时效后,低于100℃的氢解吸全部转移到高温区,但伸长率的恢复并不一定完全。当充氢过程中施加拉伸应变时,连续的相互作用可能会引起异常损伤,从而加剧延性的退化。本研究结果有力地支持了氢与塑性变形动态相互作用的连续性在铁素体钢氢脆中起重要作用的结论。
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来源期刊
Philosophical Magazine Letters
Philosophical Magazine Letters 物理-物理:凝聚态物理
CiteScore
2.60
自引率
0.00%
发文量
25
审稿时长
2.7 months
期刊介绍: Philosophical Magazine Letters is the rapid communications part of the highly respected Philosophical Magazine, which was first published in 1798. Its Editors consider for publication short and timely contributions in the field of condensed matter describing original results, theories and concepts relating to the structure and properties of crystalline materials, ceramics, polymers, glasses, amorphous films, composites and soft matter. Articles emphasizing experimental, theoretical and modelling studies on solids, especially those that interpret behaviour on a microscopic, atomic or electronic scale, are particularly appropriate. Manuscripts are considered on the strict condition that they have been submitted only to Philosophical Magazine Letters , that they have not been published already, and that they are not under consideration for publication elsewhere.
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