1) Stressed liner
应力帽层
2) capping layer
帽层
1.
Analysis of the reflective performance of EUV multilayer under the influence of capping layer;
帽层对极紫外多层膜反射特性影响分析
3) formation stress
地层应力
1.
Based on the theoretic model, formation stress may be derived from constraint inversion method with use of imaging data of borehole collapse and hydaulic fractures, in such away that not only the maximum horizontal stress profile but also the minimum one can be obtained, and further the formation breaking pressure, which is helpful to borehole stability analysis and fracturing design.
新方法基于成像测井资料对井壁破坏形式的准确判别来约束反演地层应力大小,不仅可以得到最小水平应力剖面而且可以得到最大水平应力剖面,由此计算出地层破裂压力和坍塌压力剖面,有助于井眼稳定性分析和压裂设计。
2.
Calculated are the rock and formation stress parameter with mechanics law; built is the mechanics model of calculation of capillary pressure under the condition of formation stress, so, we can get more reliable information about the formation.
利用力学特性计算出相应的岩石力学参数、地层应力参数 ,并建立了地层应力状态下计算毛细管压力的力学模型 ,使计算结果更接近于地下实际情况。
3.
Through analyzing frecuring data of many wells in the Ordovician formation in central Tarim basin,it is found that formation stress information in pressure-time curves obtained from the fracturing data may reflect the true formation stress.
分析塔中工区奥陶系地层多口井的压裂施工资料,发现其压裂施工时记录的压力-时间曲线包含的地层应力信息能够真实地反映实际地层的地层应力大小,将该地层应力信息提取和分析后,较为准确地计算地层最小水平主应力;将该计算结果用于标定摩尔-库仑准则的地层应力测井计算结果,可确定摩尔-库仑准则的地层应力测井计算模型中内摩擦角参数,求得了塔中奥陶系地层岩石平均内摩擦角为21。
4) surface layer stress
表层应力
1.
Study on surface layer stress of small-diameter wood during drying process;
干燥过程中小径木表层应力的研究
5) Interlaminar stresses
层间应力
1.
Numeric analyses for interlaminar stresses of the free corner effect in laminates;
层合复合材料自由角附近层间应力场的数值分析
2.
The interlaminar stresses and experiment research of viscoelastic laminated plates for damping vibration;
粘弹层合板阻尼振动的层间应力和实验研究
3.
Damping vibration and interlaminar stresses of submarine pressure hull with anechoic tile in fluid;
带有消声瓦的潜艇耐压壳在流场中的阻尼振动和层间应力
补充资料:轧辊残余应力(见轧辊应力)
轧辊残余应力(见轧辊应力)
residual stresses in roll
zhagun eanyu yingli轧辊残余应力(residual stresses in roll)见礼辐应力。
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