1) virtual friction
表观摩擦
2) apparent friction angle
表观摩擦角
3) apparent frictional resistance
表观摩擦阻力
1.
Test results show that the quantity of apparent frictional resistance between g.
通过室内拉拔试验研究了不同含水率条件下经编土工格栅与土体间的界面作用特性,试验结果表明:在相同的法向应力下,土工格栅被拔出破坏时对应的极限表观摩擦阻力随着土体含水率的增加而降低;不论土工格栅是整体被拔出破坏还是纵肋被拔出破坏,土工格栅和土体界面间的表观摩擦角和表观粘着力均随着土体含水率的增加而降低;土工格栅与土体界面间的破坏形式由土工格栅的整体被拔出破坏转变为纵肋被拔出破坏时对应的法向应力随着土体含水率的增加而增大。
2.
Pullout test results show that the quantity of apparent frictional resistance between two-way geogrids and clay increases with the normal stress increasing.
室内拉拔试验结果表明,双向土工格栅与黏土界面的表观摩擦阻力随法向应力的增加而增加;在较低的法向应力作用下,双向土工格栅与黏土界面间的破坏形式为土工格栅的整体拔出破坏;当法向应力增加到一定值后,双向土工格栅与黏土界面间的破坏形式由土工格栅的整体拔出破坏转变为土工格栅的纵肋拔出破坏;双向土工格栅整体拔出破坏时,表观黏着力小于纵肋拔出破坏时的表观黏着力,而表观摩擦角则相反。
4) apparent coefficients of static friction
表观静摩擦系数
1.
On macro scale, the friction force is proportional to load, the apparent coefficients of static friction are always constant and not related with the load and the contact area between the load and the substrate, which have been described as Amontons laws.
从微分静摩擦系数的定义出发 ,导出几种典型模型下微分静摩擦系数和表观静摩擦系数的表式 ,并据此广泛讨论这些文献中的实验结
5) apparent angle of internal friction
表观内摩擦角
6) microscopic friction
微观摩擦
1.
The microscopic friction during nanomanipulation was studied using the tip of an atomic force microscope to cut and manipulate carbon nanotubes with excellent mechanical and electrical properties for different surface conditions.
为了充分掌握纳米操纵中的微观摩擦规律,消除微观摩擦对纳米操纵的不利影响,该文利用原子力显微镜(AFM)的超微探针作为操纵工具,对具有优异力学和电学特性的碳纳米管在不同的表面状况下进行了剪切和操纵。
补充资料:摩擦角
见摩擦。
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