| 1. | The task of determining the stress intensity factor is by no means a simple one . 确定应力强度因子的工作决不是简单的事件。 |
| 2. | 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。 |
| 3. | The acoustic emission also shows a decreasing rate, following the drop in stress-intensity factor . 随着应力强度因子的下降,声发射也随着减少。 |
| 4. | The stress-intensity factor corresponding to the arrest of the crack is kiscc as mentioned previously . 如前所述,与裂纹延滞相应的应力强度因子便是KISCC。 |
| 5. | 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。 |
| 6. | 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。 |
| 7. | The relatively small reduction in stress intensity magnification factor with increasing stiffness of the stiffener . 随着加强肋刚度的增加,应力强度放大因子则相应有所减小。 |
| 8. | In using the approach by stress of eg. (2. 3. 4), it was found that the stress-intensity factors were underestimated by about 10-15 percent . 利用式(234)的应力求解时,我们已经发现应力强度因子被过低计算约1015。 |
| 9. | Dynamic stress intensity factor of notched beam specimen 凹槽梁试样的动态应力强度因子 |
| 10. | Calculation of stress intensity factor with thick - walled cylinder 厚壁圆筒的应力强度因子求解 |