friction force microscope摩擦力显微镜
1.Contact mode atomic force microscope (AFM),friction force microscope (FFM),and shear force microscope (SFM) were used to map the patterns.考察了膜的表面性质对接触式原子力显微镜(AFM),摩擦力显微镜(FFM)和剪切力显微镜(SFM)的成像的影响。
2.The principle of the friction force microscope(FFM) based on the atomic force microscope is presented.介绍了在原子力显微镜基础上发展起来的摩擦力显微镜的原理。
3.Contact mode atomic force microscope(AFM),friction force microscope(FFM),and shear force microscope (SFM)were used to map the patterns.考察了膜的表面性质对接触式原子力显微镜(AFM),摩擦力显微镜(FFM)和剪切力显微镜(SFM)的成像的影响。
3)AFM/FFM原子力/摩擦力显微镜
1.The topographical characteristics of the boron carbide sample surfaces were investigated with atomic force microscope/friction force microscope (AFM/FFM).用原子力/摩擦力显微镜对碳化硼样品进行了表面形貌的微观分析。
4)atomic force microscopy/friction force microscopy(AFM/FFM)原子力摩擦力显微镜
5)atomic force microscopy/friction force microscopy原子力显微镜/摩擦力显微镜
6)micro-friction微摩擦力
1.An optical testing method of micro-friction and its principle was introduced to characterize the friction properties of material surface under microcosmic conditions.为了测试微观条件下材料表面的摩擦学性能,给出了一种微摩擦力的光学测试方法。
2.The micro-friction between erythrocyte and probe,and the relation between load and friction force were studied.利用CSPM5000型原子力显微镜观察了吸附在云母基底上的红细胞表面形貌,对比分析了云母表面和红细胞表面微摩擦力回路曲线及摩擦力-载荷关系曲线,通过观察红细胞表面形貌及对其表面进行摩擦力分析发现:由于红细胞表面柔软粗糙,且其表面吸附一定的血浆和水,导致测得微观摩擦力较大;红细胞表面的摩擦力随载荷的增大而增大;坚硬的探针与柔软的红细胞表面接触并施加一定的载荷时,载荷增大首先使红细胞发生变形,当载荷增大到红细胞膜的变形极限时会导致红细胞膜破损,此时所测得的摩擦力为探针切割红细胞膜的力。
延伸阅读
显微镜19世纪中期的显微镜
