1) most dangerous non-circular failure surface
最危险非圆弧滑动面
2) Circle center of critical face
最危险圆弧滑动面圆心
3) coordinates of the center of the critical circular sliding face
最危险滑动圆弧圆心
4) most dangerous circle
最危险圆弧
1.
According to the locus of center point of the most dangerous circle in slope solved by computer, this paper raises a simply handy method of searching the center point of the most dangerous circle in slope.
以计算机求得的土质边坡最危险圆弧的圆心轨迹为依据,提出一种手算寻求最危险圆弧的简化方法。
5) critical slip surface
最危险滑动面
1.
Searching for critical slip surface is the key work of analysis of slope stability,and is important for design,construction and stability evaluation.
最危险潜在滑动面搜索是边坡稳定性分析中的一项关键工作,最危险滑动面的准确确定对边坡稳定性评价、设计、施工等均具有重要意义,随着计算机技术的发展,各种最优化方法在最危险滑动面搜索中得到广泛应用。
2.
The intuitionistic explanations of the mechanism for formation of critical slip surfaces in slopes were given by adopting Mohr-Coulomb’s failure criterion and tension-shear composite failure criterion respectively.
从力学意义上对岩土体屈服破坏行为进行了分析,指出了摩尔-库仑剪切屈服准则在边坡稳定分析中存在的问题,分别采用摩尔-库仑屈服准则和张拉-剪切复合屈服准则对边坡内部最危险滑动面的形成机理进行了直观的解释,并以强度折减有限元法的实例分析进行了验证。
6) critical failure surface
最危险滑动面
1.
The determination of the critical failure surface is very important in slope stability analysis.
最危险滑动面的确定是边坡稳定性分析中一个至关重要的问题。
2.
The methods usually used to evaluate the stability of high rock slopes are not able to identify the exact position of critical failure surfaces caused by slopes destruction.
针对目前诸多岩质高边坡稳定性评价方法都难以准确确定边坡失稳破坏时产生的最危险滑动面位置这一难题,本文沿用郑颖仁院士提出的有限元强度折减法这一思路,对岩质高边坡失稳破坏的最危险滑动面进行搜索,以便解决由滑动面位置不确切引起的工程设计与施工问题。
补充资料:非想非非想处天
1.佛教语。即三界中无色界第四天。此天没有欲望与物质﹐仅有微妙的思想。
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