1) critical void-growth ratio
临界空穴扩张比
1.
The critical void-growth ratio,Rc/Ro,of steel BHW60,steel 20 or steel 45 was measured quantitatively under SEM,and the measured positions are at the core of fracture surface of cylindrical tensile specimens.
利用扫描电镜测量了BHW60钢、20钢和45钢拉伸试样断口心部的临界空穴扩张比Rc/Ro,并据此分析了由于环境温度和扭转预应变等因素引起的韧脆转变过程及其细观形态。
2.
By observing the appearance of fracture zone,measuring the impurity composition and distribution and the critical void-growth ratio of the joints at normal temperature under scanning electron microscope,it discusses the distribution regulation of the critical zoid-growth ratio and fracture toughness of the joints and concludes that the.
同时使用扫描电镜、能谱分析仪观察了拉伸断口形貌,测定了夹杂物的成分、分布特征以及常温下接头的临界空穴扩张比R_c/R_o,讨论了R_c/R_o的分布规律和接头的断裂韧性。
2) Critical void growth ratio
临界空穴扩张比
1.
The fracture criteria of pressure vessel steel 16MnR are measured,and the results of the test indicates that the critical void growth ratio of 16MnR is constant,and the initial stages of ductile fracture of 16MnR correspond with R-T model.
在此基础上,对压力容器常用材料16MnR钢的断裂参量进行了测试,结果表明,16MnR钢的宏、细观临界空穴扩张比(VGC)均是不敏感于应力的材料常数,且16MnR钢韧性断裂的早期行为符合R-T模型。
3) stress triaxica1
临界空穴扩张比VGC
4) critical void growth ratio V_(GC)
临界空穴扩张比参数V_(GC)
6) crack-tip opening displacement
宏观空穴扩张比
补充资料:极大扩张和极小扩张
极大扩张和极小扩张
maximal and minimal extensions
极大扩张和极小扩张匡.习的司出目.公油抽lex妇心.旧;MaKcl.Ma刀‘.oe H Mll.”M田.妇oe PaC山一Pe皿朋] 一个对称算子(s笋nr贺苗c opemtor)A的极大扩张和极小扩张分别是算子牙(A的闭包,(见闭算子(cfo“月。详mtor”)和A’(A的伴随,见伴随算子(呐。int opera.tor)).A的所有闭对称扩张都出现在它们之间.极大扩张和极小扩张相等等价于A的自伴性(见自伴算子(义休.adjoint operator)),并且是自伴扩张唯一性的必要和充分条件.A.H.J’Ior朋oB,B.c.lll户、MaR撰
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