According to the results of optimizing design, we carried out the static stress analysis and the dynamic stress analysis, and insured the safety of the later assemble processes.
根据优化设计的结果,进行了静态应力分析和动态应力分析,确保了后续装配过程的安全性。
Based on the modal analysis and static stress analysis of the spindle box, it makes the mass of the spindle box optimization, the optimum parameters are attained and the design gets improved.
对箱体有限元模型进行模态和静应力分析,并以箱体质量为优化目标进行优化设计,得到最优化参数,改良了原有设计。
Static analysis and the function of stress influence belong to two different aspects of engineering structure.
静力分析和应力影响函数求解分属于一个工程结构问题的不同侧面。
The stress concentration analysis was done by the finite element method and boundary element method. The fatigue strength and the strength under the static load were calculated.
对螺纹槽管进行了疲劳强度计算,并采用边界元和有限元法对螺纹槽管的应力集中进行了数值分析及静载强度计算。
The stiffness and stress distribution of the micro-feeding system are obtained through static analysis.
通过静力分析得到了微进给刀具系统在静力作用下的变形和应力分布。
Using the well-known weighted residual method and finite element procedure, a nonlinear static analysis parallel with effective stress dynamic analysis has been made.
采用著名的加权剩余值法和等参数有限单元法,对坝体进行非线性静力分析和非线性有效应力动力分析。
According to different load levels, the curves of settlement and equivalent stress distribution are drawn through nonlinear static analysis of reinforced foundation.
根据不同荷载工况,进行加筋地基的非线性静力分析,绘制相应于各级荷载下的竖向沉降、等效应力等图形。
On the basis of the static and dynamic stress analysis about the traveling mechanism, the minimum suction parameter of the single magnetic adsorbing block was determined.
在对移动机构的静态和动态进行受力分析的基础上,确定了单个磁性吸附块的最小吸力参数。
Through static, modal and crack stress intensity factor analysis, the vibration stress of blade under rotating state before fracture can be calculated out finally.
然后采用有限元数值计算方法对叶片进行静力分析、模态分析及裂纹应力强度因子计算,最后反推出叶片在旋转状态下振动应力值的大小。
Blade fracture location is match to the position of maximum stress derived from the static analysis, so try to reduce stress concentration increases the intensity of the blade is critical.
本文研究的叶片的断裂位置与静力分析所求出的最大应力位置吻合,因此设法减小该位置的应力集中情况对于提高叶片的强度很关键。
The deformation and stress distribution of the cylinder under radial force are obtained by static structure analysis.
通过静态结构分析,得到挡轮液压缸在径向载荷作用下的变形和应力分布状况;
Static and dynamic frequency and dynamic stress are analyzed by using the modal analysis method and the transient dynamics method.
通过模态分析、瞬态动力学的方法,分析了叶片的动频、动应力。
Herein an effective stress analysis method using a multiple shear plasticity model and a concept of liquefaction front was used to investigate the static and dynamic.
本文应用基于多重剪切塑性本构模型和液化状态面的有效应力分析方法,探索了液化场地微型斜桩的抗震性状和桩土动力相互作用机制。
Gives the basic scheme of static stress and deformation, and discuss some measure technology problem carefully, at last, supports the analysis-method of measure result.
简述了静态应力应变测量的基本方案,并对方案实施中的几个测量技术问题做了较详细的论述,给出了测量结果的一般分析方法。
The distributions of stress and displacement of the integrity of the ladle turret under the actions of self-weight and the static loads are firstly obtained based on the static FE analysis.
通过静力有限元计算,得到了钢水罐回转台在自重和钢包满包载荷作用下的应力和位移分布,进而对结构的强度和刚度进行了分析。
First, using second constrain, the static state and dynamic analysis applied to the frame of a few thickness plates with FEM modal analysis, distortion, stress, vibration and frequency were gained.
首先在第二种约束方式下,利用有限元模态分析方法对几种不同板厚的机架进行了动、静态分析,得到了机架变形、应力及各阶振型与频率。
On this basis, the static load the contact stress of gear engagement fe analysis, and traditional gear strength calculation method to compare.
在此基础上,对静载荷作用下齿轮啮合对的接触应力进行有限元分析,与传统的齿轮强度计算办法作比较。
It also analyzes stress condition of two important components of the device, dipper handle and boom, supplying load basis for subsequent static analysis.
分析了机构中两个重要部件斗杆与动臂的受力状况,为后续静力学分析提供荷载依据。
An applied engineering method is presented to analysis the displacement and stress of the static analysis problem that loaded asymmetric temperature field and load.
为解决非轴对称温度场和非轴对称载荷作用下的静力分析问题提供了一种工程实用的计算方法。
The field, which it can be applied in, has expanded from plane problem to 3D problem, from structural stress analysis to structural optimize, from static balance to dynamic stability.
他已由弹性力学平面问题扩展到空间问题和板壳问题,由平衡问题扩展到稳定问题与动力问题,由结构的应力分析扩展到结构的优化设计。
Then the static analysis was carried out with ABAQUS to obtain the distortion and stress characteristics of V-type rod, and then the ADAMS simulating results were taken as the initial conditions.
将计算结果作为有限元分析的初始边界条件,在ABAQUS中进行了静态强度分析,获得了其变形及应力分布情况。
Static & Dynamic Analysis of Continuous Rigid Frame Bridge and Measure Test on Concrete Stress;
最后通过静态应力试验验证该模型的正确性。
Static & Dynamic Analysis of Continuous Rigid Frame Bridge and Measure Test on Concrete Stress;
最后通过静态应力试验验证该模型的正确性。
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