Dynamic Analysis of Cracked Cantilever, Electrostatic Microactuators Using Radial Basis Functions

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Dynamic Analysis of Cracked Cantilever, Electrostatic Microactuators Using Radial Basis Functions

机译：基于径向基函数的裂纹悬臂式静电微执行器动力学分析

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The dynamic problems of a microactuator with a single edge crack are numerically formulated using radial basis functions. The microactuator model incorporates the taper ratio, electrode shapes, and crack length, all of which govern the dynamic behavior of microactuators. To optimize the design of a microactuator, many characteristics of various shaped cantilevers and curved electrodes are also investigated.

机译：具有单边缘裂纹的微执行器的动力学问题是使用径向基函数用数值表示的。微致动器模型结合了锥度比，电极形状和裂纹长度，所有这些因素控制着微致动器的动态行为。为了优化微执行器的设计，还研究了各种形状的悬臂和弯曲电极的许多特性。

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《Mathematical Problems in Engineering: Theory, Methods and Applications》 |2012年第5期|共11页
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Ming-HungHsu;
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中图分类工程数学;
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1. Dynamic Analysis of Cracked Cantilever, Electrostatic Microactuators Using Radial Basis Functions [J] . Ming-Hung Hsu Mathematical Problems in Engineering . 2012,第pta12期

机译：基于径向基函数的裂纹悬臂式静电微执行器动力学分析
2. Dynamic Analysis of Cracked Cantilever, Electrostatic Microactuators Using Radial Basis Functions [J] . Ming-HungHsu Mathematical Problems in Engineering: Theory, Methods and Applications . 2012,第6期

机译：基于径向基函数的裂纹悬臂式静电微执行器动力学分析
3. Dynamic Analysis of Functionally Graded Plates and Shells by Radial Basis Functions [J] . Carla M. C. Roque AntÃ³nio J. M. Ferreira Ana M. A. Neves Greg E. Fasshauer CristÃ³vÃ£o M. M. Soares Renato M. N Jorge Mechanics of Advanced Materials and Structures . 2010,第8期

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4. Dynamic analysis of electrostatic actuators using radial basis function collocation method [C] . Ming-Hung Hsu 2010 the 5th IEEE Conference on Industrial Electronics and Applications . 2010

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5. Radial basis functions and vortex methods and their application to vortex dynamics on a rotating square. [D] . Wang, Lei. 2010

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6. Radial Basis Functions Intended to Determine the Upper Bound of Absolute Dynamic Error at the Output of Voltage-Mode Accelerometers [O] . Krzysztof Tomczyk, Marcin Piekarczyk, Grzegorz Sokal 2019

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7. Nonlinear Dynamic Analysis of Cracked Cantilever Beam Using Reduced Order Model [O] . Shankar Kulkarni Atul, Pandey Manoj 2016

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Dynamic Analysis of Cracked Cantilever, Electrostatic Microactuators Using Radial Basis Functions

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