1.
Research on Circumferential Stability of Thin Wall Metal Bellows under External Pressure with Tensile Displacement;
薄壁波纹管拉伸位移条件下周向稳定性研究
2.
In-situ Observation of High-temperature Tensile Process of Fe16Mn0.6C High Manganese Steel
Fe16Mn0.6C高锰钢高温拉伸过程原位观察
3.
Investigation of Fracture Mechanism of 6061 Aluminum Alloy by Means of In-situ Observation
6061铝合金断裂机理的原位拉伸研究
4.
extending or moving toward a higher place.
向一个更高的位置延伸或移动的。
5.
Research on Rare Earth Giant Magnetostrictive Micro-Displacement Driving System;
稀土超磁致伸缩微位移驱动系统研究
6.
Test and Analysis for the Performance of a Magnetostrictive Micro-displacement Actuator
磁致伸缩微位移驱动器性能测试分析
7.
Magnetostrictive Displacement Sensor Used in Quay Crane
磁致伸缩位移传感器在岸桥上的应用
8.
Foundational and Clinical Study for Thumb Extension by Transferring Extensor Carpi Radialis Brevis to Extensor Pollicis Longus;
桡侧腕短伸肌腱移位重建伸拇功能的基础及临床研究
9.
Study on Sensing Magnetic Field and Displacement Type of Giant Magnetostrictive Microdisplacement Actuator and Its Correlative Technology
磁场与位移感知型超磁致伸缩微位移执行器及其相关技术研究
10.
A Study on the Giant Magnetostrictive Microdisplacement Actuator with a Displacement Sensing Function
具有位移感知功能的超磁致伸缩微位移执行器的研究
11.
Study on the Dispersion Capability and Influencing Factors of Situ Bubble Stretch Dispersion Method;
原位气泡拉伸法分散能力及影响因素的研究
12.
In-situ Observation of Microstructure for Fe-Mn-C TWIP Steel During Tensile Deformation
Fe-23 MnTWIP钢拉伸变形过程中微观组织的原位观察
13.
Tensile and Wear Properties of TiC/7075 Composite Prepared by Melt in-Situ Synthesis
熔铸-原位合成TiC/7075复合材料的拉伸和磨损性能
14.
Stretchability and Sampling Position of Goatskin and Sheepskin Garment Leather
羊服装革拉伸性能与取样部位的相关性
15.
Study on Control Methods of Microdisplacement Actuator based on Giant Magnetostrictive Materials
超磁致伸缩微位移执行器控制方法的研究
16.
Study and Application of the Mechanism of the Magnetostrictive Linear Position Sensor;
磁致伸缩直线位移传感器的机理研究与应用
17.
Research on Micro-Displacement Control System of Giant Magnetostrictive Actuator;
超磁致伸缩执行器微位移控制系统的研究
18.
Research on Precise Micro-Displacement Smart Component Technology Driven by GMM;
精密超磁致伸缩微位移驱动智能构件技术研究