| 1. | The adhesion force is one of the key factors of vehicle moving
附着力是车辆行驶所必须考虑的关键因素。 |
| 2. | Measuring the adhesion forces of ligand - receptor bonds using functionalized carbon nanotube atomic force microscopic tips
碳纳米管原子力显微镜针尖的研究进展 |
| 3. | Comparing the wheel structure and moving environment , we analyze this illustration of the model of adhesion force and set each parameter
通过对比车轮的结构和行驶环境,并分析附着力模型的曲线图以此确定模型中的各个参数。 |
| 4. | According to the research on the adhesion between particle and surface , the adhesion force between optical surface and micron particle is discussed
对微粒与固体表面物理特性的研究表明范德华力是微粒吸附于基体的最主要作用力。 |
| 5. | At last the quantified adhesion force is given by a simplified formula . 2 . temperature field is the key factor affecting the process of laser material processing
从激光与材料相互作用的理论出发,建立了激光干式和湿式清洗的激光加热模型,并利用数字方法模拟了清洗中温度场的动态分布。 |
| 6. | Whereas , vdsc operates on physical limits of large vehicle slip angle and lateral acceleration , and enhances vehicle lateral stability by utilizing the additional yaw moment produced by different adhesion forces acted on the right and left side wheels
而vdsc系统主要在车辆大侧向加速度、大侧偏角的极限工况下工作,通常利用左、右两侧车轮附着力之差产生的横摆力矩来达到稳定性控制目的。 |
| 7. | Van der waals attraction , electrostatic force and capillary adhesion force are the three main forces for micron particle adhered to surface , and further research demonstrates the van der waals attraction is the most important factor to our research objects
根据理论计算,对吸附在光学基片表面上微米和亚微米级的抛光微粒,其范德华力与自身质量之比f _ v m高达10 ~ 6 10 ~ 9 ,传统的清洗方法难以克服它。 |
