1) critical energy release rate
临界能量释放率
2) interface energy release rate
界面能量释放率
1.
The results show that the interface energy release rate is 1.
研究结果表明:采用爆炸焊接工艺可以达到不锈钢-铝复层板的良好结合,以界面能量释放率作为界面断裂韧性的评价指标,其平均值为1。
3) critical strain energy release rate
临界应变能释放速率
4) strain energy release rate
临界应变能释放率
1.
Measured method of nonlinearity critical strain energy release rate of frozen soil;
冻土非线性临界应变能释放率的测试方法
5) critical heat release rate
临界热释放速率
6) energy release rate
能量释放率
1.
Analysis of energy release rate for delaminated composite plates after repair;
含层间分层复合材料层合板修复后能量释放率分析
2.
Simulation analysis on interfacial crack energy release rates in two materials structure and comparison with those in the single material;
两种材料中界面裂纹能量释放率的仿真研究及与单一材料裂纹比较
3.
FEM was improved with an effective virtual crack closure technique to evaluate the energy release rate as the criterion for crack propagation.
通过Newmark方法求解动力学方程,以能量释放率作为裂纹扩展准则。
补充资料:临界能
分子式:
CAS号:
性质:又称活化能(activation energy)。质谱学中的临界能是指分子离子ABCD+.分解生成AD+时必须具有的最低内能,记作Eo(M+→AD+)。它定义为M+的零点能与反应M+.→AD+中活化复合物的零点能之差。
CAS号:
性质:又称活化能(activation energy)。质谱学中的临界能是指分子离子ABCD+.分解生成AD+时必须具有的最低内能,记作Eo(M+→AD+)。它定义为M+的零点能与反应M+.→AD+中活化复合物的零点能之差。
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