1) meso-fracture-energy-release-rate
断裂能量释放率
1.
Appling the nonstationary Markov random process with discrete parameter spaceand state space, and meso-fracture-energy-release-rate as well as the meso-olamage-stresies, the planar problem of concrete structures under the change of ambient field issimulated and described, which predicts the ambient field.
运用非平稳参数空间和状态空间离散的马尔柯夫(Markov)过程、细观断裂能量释放率和细观损伤应力,来描述和模拟混凝土二维平面问题在环境场变化时的行为。
2) crack tip energy release rate
裂尖能量释放率
1.
The two dimensional accurate solution is obtained on plane strain assumption, the numerical results of strain energy release rate and crack tip energy release rate are presented.
在平面应变假设下 ,给出其二维精确解 ,并提供了机械应变能释放率和裂尖能量释放率等数值结果。
3) 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。
4) energy releasing rate
能量释放率
1.
Based on the principle of energy superposition and by using the equivalent transformation for beam sections, an expression for calculating the energy releasing rate of interface crack growth in a sandwich beam specimen is developed, and the toughness for the interface of Si 3N 4/Al formed by vacuum diffusion method is measured by a particularly designed four point bending test system.
基于能量叠加和梁的等效截面转换原理,本文导出了计算Sandwich梁试样界面裂纹扩展能量释放率的解析式,并利用专门设计的四点弯曲实验系统测得了Si3N4/Al真空扩散连接界面的韧性,进而为优化陶瓷/金属连接工艺、筛选材料组配和评价其连接界面的抗断裂性能提供了必要的研究方法和实验手段。
2.
Finally,the structural fatigue cracking propagation is computed based on the Paris equation with regard to energy releasing rates.
根据Jonswap谱确定随机波浪功率谱,进而由同一功率谱使用Shinozuka方法计算生成10个随机波浪力谱,应用雨流计数法对波浪力谱进行循环计数处理,最后使用基于能量释放率的Paris公式方法对构件进行疲劳裂纹扩展计算。
5) strain energy release rate
能量释放率
1.
Based on the theory of strain energy release rate of fracture mechanics, the crack problem of mixed mode Ⅰ and mode Ⅱ crack for functionally gradient materials under plane strain is investigated.
基于断裂力学的能量释放率理论 ,研究了平面应变条件下梯度功能材料的Ⅰ ,Ⅱ型复合裂纹问题 。
2.
The strain energy release rate is studied along the delamination front.
在分析中引入接触元来防止层间的闭合接触效应,并进一步分析了分层前缘的能量释放率。
3.
As an example of axisymmetric elasticity problem, the analytic solutions of elastic field of cubic quasicrystal with a penny-shaped crack are obtained, and the stress intensity factor and strain energy release rate are determined.
作为轴对称问题的例子,得到了立方准晶含有圆盘状裂纹时其弹性场的分析解,并由此确定了应力强度因子和能量释放率。
6) energy release rates
能量释放率
1.
Study of energy release rates for crack deflection of ceramic matrix composites;
陶瓷基复合材料基体裂纹偏转能量释放率研究
2.
A failure criterion has been developed for mixed mode fracture based on the theories of energy release rates and has been used to analyze laminated failure of mixed mode cracks in composite materials.
将复合材料的混合裂纹看成为Ⅰ型裂纹和Ⅱ型裂纹的叠加,根据断裂力学中能量释放率的观点建立了混合裂纹的断裂准则,并用以分析复合材料混合裂纹的分层破坏现象。
补充资料:促甲状腺素释放激素、促甲释放素
分子式:
CAS号:
性质:又称促甲状腺素释放激素、促甲释放素。为简单的三肽。易溶于无水甲醇,略溶于氯仿,不溶于吡啶。为下丘脑分泌的多肽激素。促进垂体生成促甲状腺素,同时还能刺激垂体释放泌乳素。可影响细胞钙库,增加Ca2+浓度而发挥作用;且有抗内毒素性休克作用。用于诊断甲状腺功能,判定甲状腺功能亢进复发趋势。也可治疗甲状腺机能减退和甲状腺癌患者。制剂为注射剂。
CAS号:
性质:又称促甲状腺素释放激素、促甲释放素。为简单的三肽。易溶于无水甲醇,略溶于氯仿,不溶于吡啶。为下丘脑分泌的多肽激素。促进垂体生成促甲状腺素,同时还能刺激垂体释放泌乳素。可影响细胞钙库,增加Ca2+浓度而发挥作用;且有抗内毒素性休克作用。用于诊断甲状腺功能,判定甲状腺功能亢进复发趋势。也可治疗甲状腺机能减退和甲状腺癌患者。制剂为注射剂。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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