1.
We calculated the natural frequencies and mode of vibration for a five stepped Si-beam of Si-piezoresistive accelerometer.
我们用该方法计算了硅压阻式加速度传感器五阶梯硅梁固频和振型。
2.
Research on Fabrication of Silicon Micro-cantilevers based on MEMS Technology
基于MEMS技术硅微悬臂梁制作工艺研究
3.
Study on Piezoresistive Double Clamped Silicon Nano-beam;
基于压阻检测的双端固支硅纳米梁研究
4.
The Research on Velocity Control System of Walking-beam-type Reheating Furnace in Silicon Steel;
硅钢步进梁式加热炉速度控制系统研究
5.
The Study of Double-Layer Quad-Beams Piezoresistive Accelerometer;
四梁双层结构压阻式硅微加速度计的研究
6.
Study on the Fabrication of Sub-micro Beams with Au/Si Galvanic Etch-Stop Technique;
基于金硅腐蚀自停止技术的亚微米梁制作研究
7.
The Fracture Reliability Model of Polycrystalline Silicon Microcantilever;
多晶硅微悬臂梁断裂失效的可靠性模型建立
8.
Design and Fabrication of Thermally Excited Si_3N_4 Resonant Beam Pressure Sensor;
热激励氮化硅谐振梁压力传感器的设计与制作
9.
Bending Test of Young's Modulus of Crystalline Silicon Nano-Beam
单晶硅纳米梁杨氏模量的弯曲测试(英文)
10.
STUDY ON STRESSES CHARACTERISTICS OF MEMS SCANNING MICROMIRROR WITH END-RESTRAINED SINGLE CRYSTAL SILICON TORSION BAR
端面约束单晶硅直梁MEMS扫描微镜应力特性研究
11.
Analysis of Polysilicon Fixed-Fixed Beam under High-Cycle Fatigue
多晶硅双端固支梁高周循环下疲劳特性的分析
12.
Al and its alloys adhere well to thermally grown ??and to deposited silicate glasses.
铝和它的合金能很好地粘附在热生长的?梁偷砘?的硅酸盐玻璃上。
13.
Performance of Micro One-sided Straight-leg Beam Resonator and Cascade V-Shape Thermal Actuator;
硅微单侧直脚谐振器与复合V型梁热致动器的机械性能研究
14.
Research on the Energy Absorption of Foam Aluminum with Silicone Rubber and the Bending Capability of Foam Aluminum Sandwich Beams;
硅橡胶填充泡沫铝吸能性能和层合梁抗弯性能研究
15.
The Experimental and Clinical Study of Silicone-rubber Implanting in Decompression Chamber Combined with Non-penetrating Trabecular Surgery (NPTS);
硅胶植入减压室在非穿透小梁手术中的实验和临床研究
16.
Study of PZT Piezoelectricity Thick Film and PZT Piezoelectric Cantilever on Silicon Substrates for MEMS Application
用于MEMS的PZT压电厚膜及硅基压电悬臂梁的制备研究
17.
Study on a Novel Type of Piezoresistive Micro-silicon Accelerometer Based on the Cantilever with Rectangular-slits Structure
基于孔缝悬臂梁结构的新型压阻式硅微加速度传感器研究
18.
The weak resonant signal was picked up by piezo-resistor Wheatstone bridge designed and fabricated on the silicon micro-cantilever.
电热激励利用在硅微机械悬臂梁表面优化设计的热激励电阻加以实现。