1) electric field-induced delayed fracture
电致滞后断裂
2) hydrogen-induced delayed failure
氢致滞后断裂
1.
It was found that the hydrogen-induced delayed failure could occur in 308L and 347L weld metals, and the threshold stress intensities for 308L and 347L are lower than 304L austenitic stainless steel.
308L和 347L奥氏体不锈钢焊缝金属能发生氢致滞后断裂,而且比 304L母材更敏感。
3) hydrogen-induced delayed fracture
氢致滞后断裂
1.
Hydrogen-induced delayed fracture during dynamic charging of TiNi shape memory alloy, and the role of atomic hydrogen, hydrogen-induced martensite and hydride in hydrogen-induced delayed fracture have been investigated.
用单边缺口拉伸试样研究了TiNi形状记忆合金在恒载荷下动态充氢时的滞后断裂过程,以及原子氢、氢致马氏体和氢化物在氢致滞后断裂中所起的作用。
4) hydrogen-induced threshold stress
氢致滞后断裂门槛应力
5) delayed fracture
滞后断裂
6) electric fracture
电致断裂
1.
Under an electric field or a combined electric and mechanical loading, the ferroelectric ceramics are susceptible to electric fracture and electric fatigue.
铁电陶瓷在电场或力电耦合载荷作用下的典型失效模式为电致断裂和电致疲 劳。
补充资料:电致发光显示材料(见电致发光材料)
电致发光显示材料(见电致发光材料)
electroluminescent display materials
蒸敷棘巍 diSPlay 又称场致 质的粉末
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条