1.
Research on Control System of Nursing Robot Driving by Smart Material Actuator;
智能材料驱动的护理机器人控制系统的研究
2.
Output displacement of actuator based on Terfenol-D multilayered composite
叠层复合磁致伸缩材料驱动器的输出位移特性
3.
Research of Numerical Simulation of Crack Driving Force in Inhomogeneous Material Components;
非均质材料构件裂纹驱动力数值模拟研究
4.
Preparation and Characterization of the Polystyrene-based Electroactive Polymer Materials;
聚苯乙烯基电驱动高分子材料的制备与表征
5.
Research on Mathematical Driving Model of Ultrasonic Motor and Its Frictional Materials;
超声波电机摩擦驱动模型和摩擦材料研究
6.
Study on Composite Ultrasonic Linear Motor and Driving;
复合材料超声直线电机及其驱动源研究
7.
Research on Friction Materials for TBM Driving Clutch Plate
适用于TBM驱动离合器摩擦片的摩擦材料研究
8.
The Study of High-temperature Self-lubricating Materials Pore Structure and Lubricants Driven
高温自润滑材料孔隙结构及其润滑剂驱动研究
9.
LEDs Illuminating the World
LED:让世界光彩夺目——LED及驱动IC、材料的技术市场
10.
Study of On/Off digital valve based on actuator using GMM
超磁致伸缩材料致动器用于开关式数字阀驱动的研究
11.
Piezoelectric materials have many superiority on precision actuate.
通过比较和分析,压电材料在实现精密驱动上具有相当大的优势。 二.
12.
Activation characteristics of the dual-cooled w aste transmutation blanket for the fusion-driven subcritical system
聚变驱动次临界堆双冷嬗变包层材料活化计算与分析
13.
Electromagnetic driving and controlling (EM-D&C) molten metal is one of most important key technique of electromagnetic processing of materials (EPM).
对熔融金属的电磁驱动、控制是材料电磁过程的关键技术之一。
14.
Actuators and Memory Devices Based on Nano-materials of Conducting Polymers;
基于导电高分子纳米材料的驱动器件和存储器件的研制
15.
Research on the Controlling and Performance of Hybrid-Drive Linkage Mechanism with Composite Component;
具有复合材料构件的混合驱动连杆机构控制及性能研究
16.
Investigation of Radiation Effects in Beam Window Materials for Use in ADS Spallation Neutron Source System;
加速器驱动洁净能源系统散裂中子源束窗材料辐照效应研究
17.
Development of the Driver Programme for Testing and Control System on the basis of USB Bus Electronical Universal Material Test Machine;
基于USB总线电子万能材料试验机测控系统驱动程序的开发
18.
Analysis of Ultrasonic Drive Micro-Friction Mechanism and Study of Anisotropy Fricition Material
超声驱动微摩擦机理分析及各向异性摩擦材料研究