对典型结构钢的双悬臂梁试件的中低速韧性撕裂的实验进行了准静态模拟。
A quasi static approach is presented for ductile tearing test of double cantilever beam specimen by using the model of elastic beam on elaso plastic foundation.
在钢筋混凝土双悬臂梁试验系统中,应变、挠度以及荷载是其主要的测试内容。
In test system of reinforced concrete double cantilever beams, strain, deflection and load were principal experimental contents.
对一种先进的双悬臂梁高量程MEMS加速度计的单芯片封装工艺进行了失效机理分析。
Failure analysis is conducted for the single chip packaging process of an advanced high-range MEMS accelerometer with double cantilever beams.
利用梯度功能压电执行器设计和制作了双悬臂梁结构的微夹钳,用作微型机器人操作系统的操作手。
A pair of functionally gradient piezoelectric cantilevers was used to fabricate a microgripper, which is used as the micromanipulator of micro robot operating system.
通过渗氢试样的常温力学性能试验和双悬臂梁试样在高温高压高纯水中的腐蚀试验来研究t 225ng钛合金的氢脆行为。
Through the tests of mechanical properties of charging hydrogen and the corrosion tests in loop water of high temperature and high pressure, hydrogen brittleness of T225NG Ti-alloy was studied.
报道一种利用双侧悬臂梁展宽光纤光栅带宽实现对挠度和应力线性传感的新方法。
A new linear sensing method of deflection and stress, in which the fiber grating bandwidth is stretched by using bilateral cantilever beam, is reported.
采用微细加工技术制作出无基底的双材料微悬臂梁阵列结构。
The micro-electromechanical system (MEMS) technology is adopted to fabricate the substrate-free bi-material micro-cantilever arrays.
采用微细加工技术制作出无基底的双材料微悬臂梁阵列结构。
The micro-electromechanical system (MEMS) technology is adopted to fabricate the substrate-free bi-material micro-cantilever arrays.
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