说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 句库 -> 单元耦合
1.
Investigation of mesh free-finite element macroelement coupling method
无网格—有限元广义单元耦合法的研究
2.
THE METHOD OF COUPLING INFINITE ELEMENTS WITH FINITE ELEMENTS AND ITS APPLICATION TO STRUCTURE ANALYSIS OF A ROAD TUNNEL
无限单元与有限单元耦合在公路隧道结构分析中的应用
3.
Study on the Coupled Finite Element-Element Free Galerkin Method for Electromagnetic Field;
有限元与无单元耦合法在电磁场数值计算中的应用研究
4.
charge-coupled shift register cell
电荷耦合移位寄存器单元
5.
The Research on Implement Friability Coupling in Delphi
实现DELPHI单元之间松散性耦合问题的研究
6.
Research on Coupling Model of Stress Field and Seepage Field by EFM;
基于无单元法的应力场与渗流场耦合模型研究
7.
Study on Whole Transfer Matrix of Coupling Element in Gears Transmission System;
齿轮传动系统耦合单元整体传递矩阵的研究
8.
Interleaved basic cell with winding-cross-coupled inductors
三绕组耦合电感组成的交错并联基本单元
9.
Application of One 3D Coupled Element Model in Simulation of Smear Layer
一种三维耦合单元模型在涂抹层模拟中的应用
10.
An Unit to Gain Coupling High Side Trigger Power for Series Thyristor Stack
一种晶闸管阀组高压侧触发能量耦合获取单元
11.
Coupling analysis of seepage and stress in fractured rock mass based on the distinct element method
基于离散单元法的裂隙岩体渗流应力耦合分析
12.
Study on the Coupling of Meshless Methods to Finite Element Methods about the Ribbed Raft on the Winkler Foundation;
Winkler地基上带肋筏板无单元与有限元耦合方法研究
13.
Research on Adaptive Method Coupling Meshless Method and Finite Element for Distortion Elements of Plates and Shells
板壳畸变单元的无网格和有限元自适应耦合方法研究
14.
Extensive model of multi-factor coupling bionics and analysis of coupling elements
多元耦合仿生可拓模型及其耦元分析
15.
MEASUREMENT OF 13 METALLIC ELEMENTS IN CRUDE OIL USING SINGLE CHANNEL SCAN INDUCTIVE COUPLING PLASMA BODY (ICP)
单道扫描电感耦合等离子体测定原油中13种金属元素
16.
Research of Hydraulic Fracturing Based on Coupling Model of Stress-Seepage-Damage by EFM;
基于无单元法的应力—渗流—损伤耦合模型的水力劈裂研究
17.
Research on the Coupling of Seepage Field and Stress Field in Fractured Rock Masses Based on the Distinct Element Method;
基于离散单元法的裂隙岩体渗流场与应力场耦合特性研究
18.
Effect of Unit-body Form and Matrix on Thermal Fatigue Characteristics of Biomimetic Coupling Cast Iron;
单元体形态与基体组织对仿生耦合铸铁热疲劳性能的影响