The cleavage facture stress of notched specimen is much higher than that of smooth specimen.
切口试样测得的解理断裂应力明显高于光滑试样。
As for notched specimen, the fatigue life prediction using fatigue factors of half-life section is the smallest.
对于缺口疲劳试样,则采用半寿命阶段的疲劳参数的预测结果为最小。
The fatigue life of a notched specimen under random loading spectrum is evaluated by means of the present method.
用该方法分析了一个缺口试件在随机谱载下的裂纹形成寿命,结果比常规的有效系数和雨流法更接近试验结果。
The results show that the crack propagation work of V-notched specimen can well reflect the notch sensitivity of the tested steels.
结果表明:V型缺口试样的裂纹扩展功能较好地反映材料的缺口敏感性。
Tests results show that the fatigue performances of the shroud-like specimen and the platform-like specimen are respectively 7.68% and 5.93% those of the notched specimen.
试验结果表明:缘板模拟件、叶冠模拟件的材料疲劳性能分别为对比试件(和叶身中部材料性能基本相当)的5.93%和7.68%。
Charpy impact test (V gap) : the specified height of pendulum of the one-time blow to V notched specimens in beam state, test specimen is broken by the impact absorbing energy.
夏比(V型缺口)冲击试验:用规定高度的摆锤对处于简支梁状态的V型缺口试样进行一次性打击,测量试样折断时冲击吸收功的试验。
The critical event for cleavage fracture in notched specimens is the propagation of a ferrite grain-sized crack into the matrix, and is independent of specimen sizes and widths.
在缺口试样中,解理断裂的临界事件是铁素体晶粒尺寸的裂纹扩展进入基体,不随试样尺寸和宽度变化。
The impact test of the pendulum is used to strike the notched specimens of the cantilever beam with a prescribed height, and the test of impact absorbing power when the specimen is broken.
艾氏冲击试验:用规定高度的摆锤对处于悬臂梁状态的缺口试样进行一次性打击,测量试样折断时冲击吸收功的试验。
An experiment on dynamic rock fracture toughness test using edge-notched disc specimen is presented.
提出用边切槽圆盘试样测量岩石动态断裂韧度的实验方法。
For crack-opening displacement tests, a specimen is notched and then fatigued by flexing to obtain a fine crack. Force is then applied until the crack begins to grow.
在裂纹扩展试验中,试样切口后使其弯曲并产生微小裂纹,在试件上继续加力直到裂纹扩大为止。
Solution of differential equation of specimen compliance in critical state is derived for short chevron-notched bar splitting specimen by method of fracture work.
用断裂功法推导出山形切口方形劈裂试样的柔度微分方程解。
Solution of differential equation of specimen compliance in critical state is derived for short chevron-notched bar splitting specimen by method of fracture work.
用断裂功法推导出山形切口方形劈裂试样的柔度微分方程解。
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