Study is emphasized on the evolution of microstructural damage induced in material, which initially embeds flaws.
本文研究了含有微小裂隙的韧性材料中细观损伤的演化。
The infused hydrogen migrates to areas of high stress (e. g., material internal stresses) and creates local microstructural damage.
如果氢元素转移到高应力区域(材料的内部应力)就会导致微结构损伤。
When hydrogen remains in a component for an extended time, the microstructural damage that develops significantly degrades the mechanical properties of the steel.
如果氢元素残留在部件中达到一定的时间,微结构损伤就会使钢材的机械性能严重衰减。
When hydrogen remains in a component for an extended time, the microstructural damage that develops significantly degrades the mechanical properties of the steel.
如果氢元素残留在部件中达到一定的时间,微结构损伤就会使钢材的机械性能严重衰减。
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