1.
The dynamic SIF variation was found to lag behind the stress-pulse imingement by several microseconds.
动态应力强度因子的变化发现滞后于应力脉冲冲击几微秒。
2.
The dynamic SIF variation was found to lag behind the stress-pulse impingement by several microseconds.
人们发现,动态应力强度因子的变化滞后于应力脉冲冲击几微秒。
3.
The calculation formula of DSIF was proposed.
在此基础上,构建了用于计算动态应力强度因子的近似表达式。
4.
NUMERICAL CALCULATIONS OF DYNAMIC STRESS /NTENSITY FACTOR(DSIF) OF CENTER-CRACKED PLATE UNDER IMPACT LOADING
带裂纹板在冲击载荷作用下动态应力强度因子的数值计算
5.
EFFECT OF CRACK FACE CONTACT AND FRICTION ON DYNAMIC STRESS INTENSITY FACTORS FOR A DOUBLE-EDGE CRACKED PLATE
裂纹面接触摩擦对双-边裂纹板动态应力强度因子的影响
6.
MIXED MODE DYNAMIC STRESS INTENSITY FACTORS OF CRACKED STRAIGHT THROUGH FLATTENED BRAZILIAN DISC SPECIMENS
中心直裂纹平台巴西圆盘复合型动态应力强度因子
7.
In this paper, a simple formula is derived for calculating the dynamic stress intensity factor (DSIF)of three point bending specimen using dynamic crack opening displacement (DCOD).
给出了一种由裂纹的动态张开位移计算三点弯曲试样的动态应力强度因子的简单方法。
8.
Their results showed a more rapid rate of increase in the dynamic SIF for blunt than for sharp notches.
它们的结果表明:钝切口比尖锐切口的动态应力强度因子增长率更快。
9.
DSIF computation of dynamic crack growth with non uniform velocity by TDBEM
非匀速动态裂纹应力强度因子的边界元算法
10.
Numerical Analysis of Dynamic and Static Stress and Stress Intensity Factors for Disc Specimens under Diametric Compression
径向压缩圆盘试样的动静态应力和应力强度因子数值分析
11.
elastodynamic stress-intensity factor
弹性动力应力强度因数
12.
stress corrosion threshold intensity factor
应力腐蚀界限强度因子
13.
STUDY OF THE COMPUTATION OF STRESS INTENSITY FACTOR BY STRESS FIELD INTENSITY
应力场强计算裂纹应力强度因子的方法研究
14.
FEM based stress intensity factor analysis for rotor steel 30Cr1Mo1V
30Cr1Mo1V转子钢应力强度因子有限元分析
15.
They found that the dynamic SIF decreases as the stiffer material is approached.
他们发现随着较刚性的材料接近,动态应力强度因于减少。
16.
Stress and Stress Intensity Factor Measurement of Structural Members Using PVDF Film;
应用PVDF压电材料测量结构应力和应力强度因子
17.
Calculate the Stress Intensity Factor by the Finite Element Software ANSYS
基于ANSYS的应力强度因子计算
18.
STRESS INTENSITY EVALUATION FORMULAS FOR A RECTANGULAR INTERFACIAL CRACK IN THREE DIMENSIONAL BIMATERIALS
矩形界面裂纹应力强度因子评价公式