| 1. | Mechanical modeling of mesa - diaphragm structures in microelectromechanical systems
弹性膜结构的力学建模与仿真 |
| 2. | He has worked in biomechanics , in biocybernetics , in mechatronics and in microelectromechanical system for biomedical engineering applications
他的研究领域有:生物力学、生物控制学、机电整合及微机电系统于生医工程之应用。 |
| 3. | Low , t . s . , and guo , w . , 1995 , “ modeling of three - layer piezoelectric bimorph beam with hysteresis ” , ieee journal of microelectromechanical systems , 4 , ( 4 ) , pp . 230 - 237
冯荣丰、杨竣翔、韩长富, 2003 , ”磁滞与摩擦力考虑的奈米定位” ,物理双月刊二十五券三期。 |
| 4. | Paper 8 - devoe , don l . , and albert p . pisano . " modeling and optimal design of piezoelectric cantilever microactuators . " journal of microelectromechanical systems 6 , no . 3 ( september 1997 ) : 266 - 270
论文9纯纳米管纤维的赖斯提纯制备,与凯夫拉尔纤维、采龙纤维相似的先进纤维制备方法 |
| 5. | With the growth of micromachining process technologies for microelectromechanical systems ( mems ) , the surface micromachining technique has been increasingly used in the fabrication of sensors and actuators
随着mems加工技术的发展,表面微机械加工技术已经越来越多的应用于传感器和执行器的制造过程中。 |
| 6. | Some such chips are powered by microelectromechanical system ( mems ) circuits ? semiconductors that incorporate micron - scale mechanical devices ? such as a digitally reconfigurable analog rf capacitor
这类晶片有些采用微机电系统( mems )电路,也就是含有微米尺寸机械装置的半导体产品,例如可程化的类比rf电容器。 |
| 7. | The laboratory works for two majors : " instrument science and technology " and " microelectromechanical system engineering " , and takes the major responsibility in teaching and research for the major : " microelectromechanical system engineering "
微系统与控制技术研究室服务于"仪器科学与技术"和"微机电系统工程"两个专业,是新专业"微机电系统工程"教学科研的主要承担单位。 |
| 8. | Micro - cantilever / tip prepared in microelectromechanical system ( mems ) has been widely used in many fields , such as the study of surface properties and the application in micro / nano machining , and it becomes an important and indispensable to the micro / nano science and technology
摘要利用微加工制造的微悬臂梁探针尖已经广泛应用在微观表面性质测试和微纳米尺度加工等领域,成为微纳米研究领域中不可缺少的重要工具。 |
| 9. | Kionix manufactures inertial sensors using plasma micromachining , a highly - refined , proprietary , deep reactive ion etch drie fabrication technology . the resulting products are ultra - small mechanical elements integrated with electronics to create microelectromechanical systems mems
Kionix的惯性sensor采用的plasma微机电制程,是一种经高度改良且有独家专利制程,使产品的机械结构部份做到最小并同时与电子电路结合形成一先进的微机电产品 |
| 10. | Utilizing their shape memory effect ( sme ) , titanium - nickel ( tini ) shape memory alloy ( sma ) films have the potential to become high performance actuating materials for microelectromechanical systems ( mems ) due to their ability to generate large forces with large power - to - volume ratio , high recoverable strain , low power consumption , biocompatible property , and long lifetime
利用其形状记忆效应原理, tini形状记忆合金( sma )薄膜以其大的输出力和变位、高的功率密度、良好的生物相容性、低功耗以及长寿命,有望成为微机电系统( mems )中高性能的微驱动材料。 |
