| 1. | I study on the hdpe silicon oil prelubricated innerduct
硅油自润滑光缆保护套管的研制 |
| 2. | Inside the steel structure is filled with silicon oil
钢体内部灌注硅油。 |
| 3. | Study of the electrorheological properties of paqr dispered in silicon oil
硅油分散体系的电流变特性研究 |
| 4. | No silicon oil , no weldless
无硅油无焊缝 |
| 5. | Silicon oil or inert oil
硅油或惰性油 |
| 6. | The measured pressure acts on the membrane and transferred on the sensing chip by the silicon oil
被测压力作用在膜片上并通过硅油传递到敏感芯片上。 |
| 7. | Many factors such as plate frame , dimension and space , original filling rate and viscosity of silicon oil , rotating speed differences etc . are considered in torque calculation
全文共分为五章,液体粘性联轴器的盘片几何结构尺寸和硅油特性对输出剪切转矩的影响是本文研究的重点。 |
| 8. | The intubatton operating side of the lens body is smeared with the lubricative silicon oil , which can effeictively eliminate the friction resistence between the lens body and the trachea and hence make the clinic operation much more convenient
麻亮爽镜体的插管操作面涂有润滑硅油,有效地消除了气管导管与镜体的摩擦阻力,临床操作更加方便。 |
| 9. | Organic silicon : silicon oil ( silicon grease , silicon suckling liquid , silicon surfactants ) , silane coupling agent ( organic silicon chemistry reagent ) , high temperature sulfur rubber , liquid silicon rubber , organic silicon polymer , silicon resin , organic silicon singles , compound etc . , organic silicon produce and the related raw material , aid chemical preparation , technique
有机硅:硅油(硅脂、硅乳液、硅表面活性剂) ,硅烷偶联剂(有机硅化学试剂)高温硫化橡胶、液体硅橡胶、有机硅聚合物、硅树脂、有机硅单体、复合物等,有机硅生产相关原料、助剂、技术。 |
| 10. | The results showed that the forming constant and the fluorescence relative intensity were increased with the increase of cross - linked degree , and also , a well straight line of i vs . cross - linked degree was obtained ( where i = i - i0 , i is the fluorescence relative intensity of guest in the presence of different - cyclodextrin polymer and i0 is that of guest in aqueous solution ) . the electrorheological properties of suspensions of these particles in silicon oil have been investigated under dc electric field , which exhibited a significant er behavior
结果表明,超分子配合物中主-客体配比均为1 : 1 ,其生成常数和相对荧光强度均随交联度的增长呈上升趋势,且相对荧光强度的增量与对应的交联度存在良好的线性关系。电流变液性能测试发现, 6种超分子配合物电流变液在3kv mm直流电场作用下,其屈服应力达3 . 38 5 . 98kpa ,与对应聚合物相比,平均增加了47 . 6 。 |
