压扁试验中试样的最大变形部位出现裂纹状缺陷。
In flattening test, the crack happened in the lagest deformation parts.
最后,提供了最大应力和最大变形所在的部位和数值。
Finally, locations of maximum stresses and deformation and their values are determined.
优化后分析结果证明,机床结构的最大变形值都相应降低。
The optimization analysis result showed that the data of maximum deformation is acco...
相同受力条件下,埋地PSP管的最大变形值比埋地PE管小。
On the same stress, the maximum deformation of buried PSP pipe is smaller than the PE pipe.
通过求解建立的平衡方程组,给出了平台的最大变形和残余变形。
Maximum deformation and residual deformation are given by solving the systems of simultaneous equations.
优化结果表明:支架的最大变形量可以控制在微米级以内,符合要求。
The optimization results show that: the biggest stent deformation can be controlled under the scope of micron level, which can meet the requirement.
通过采集整个位移场的最大变形量,并与设计指标对比,满足给定要求。
Contrasting the maximal deformation from whole displacement space with design target shows that the calculated results are satisfied the design requirements.
本文提供了一种求解变截面悬臂梁在任意载荷作用下最大正应力及最大变形的方法。
It may solve the problems of maximum stress and maximum deformation of cantilever beams with variable cross section under arbitrary loads.
推导出接触爆炸作用下线性硬化材料板的最大变形量计算式和塑性变形范围的计算式。
The computing formulas of the maximal deformation distance and the plastic area limits of the linear hardening plates were deduced.
在汽车覆盖件的冲压成型中,可以利用的是板材在稳定变形阶段所能达到的最大变形程度。
In the stamping and forming processes of automotive covering parts, only the maximum deformability, which is reachable in stable deformation stage of sheet metal, can be made use.
然后,对喇叭膜片进行可靠性分析,确定出膜片的最大变形量及影响最大应力的主要因素。
Then, the reliability analysis of horn diaphragm is done, obtain the maximum distortion and confirm the main factors affecting the maximum stress.
通过圆函数变形模型,推导出两种典型零件成形中压头压入行程与板料最大变形量的函数关系。
The relationship between heads relative displacement and sheets maximum deformation is deduced by circular function forming model.
基于最大变形和累积耗能线性组合的双重破坏准则及破坏指标,对单自由度结构进行了倒塌分析。
Based on the double control damage criterion and index of the linear function of the maximum deformation and cumulative hysteretic energy, the collapse of the SDOF structures is analysed.
对在线测量的数据进行曲线拟合,求解出最大初始曲率、最大初始曲率对应的位置及最大变形量。
The maximal initial curvature and its relevant location and maximal distortion can be gotten by numerical curve fitting after on-line measurement.
计算一次进给不对称卷板的可行性,如进行最大变形量、最大压力、最大功率和不打滑的验算等等。
The paper also gives the feasibility analysis of asymmetric plate bending under one time feeding cond...
通过有限元仿真计算和现场性能试验,准确把握柔性防护网在规定的冲击能量作用下的最大变形数据。
For studying the deformation of flexible protection system accurately under the given impact, finite element analysis and performance test are carried out.
优化结果表明,优化后箱体最大变形量减小了15%,最大等效应力降低了22.5%,提高箱体整体性能。
Optimization results show that the optimized box reduces the amount of maximum deformation of 15%, the maximal effect force is reduced by 22.5%, to improve the overall performance box.
根据参数研究结果,提出了猜测墙体变形路径的方法,同时建立了猜测墙体最大变形和土体最大沉降的响应面。
Parametric studies have been carried out to study the excavation behavior with respect to wall deflection, soil settlement and apparent pressure.
此模型由一“破坏指标”表示,它是最大变形和累积能量耗损两个参数的非线性函数,其统计特性服从威布尔分布。
This model is represented in terms of a "damage index" which is a nonlinear function of maximum deformation and accumulated energy dissipation, and follows Weibull distribution.
分析结果表明,优化后的主溜板在满足最大变形约束要求下,第一阶自然频率提高31.2%,材料节省7.8%。
Simulation with the optimized tool slide shows that the first order natural frequency is increased by 31.2% and material savings of 7.8%.
研究结果表明随着跌落高度、跌落次数的增加,苹果冲击力、加速度峰值、冲击最大变形、冲击结束后的残余变形逐渐增大。
Results show that with the increase of dropping height and repeated impact, the impact force, peak acceleration, maximum deformation and remaining deformation of apple increase.
通过分析结果可知蜂窝纸板的应力集中出现在纸芯的上端,最大变形出现在离上端1/5处,且蜂窝纸芯的高度对蜂窝纸板压缩力学性能影响较小,与实验结果相符合。
The stress and strain of honeycomb paperboard is also analyzed. The result proves that the concentrative stress is the honeycomb paperboard off the top, and the furthest distortion is at the 1/5.
利用有限元法,对绉片机机架的强度和刚度进行分析,找出机架在正常工作状态下的最大变形和最大应力发生的位置,针对机架的薄弱环节采取相应的措施可以得到更加稳定的机架。
The strength and stiffness of crepper frame is analysed by finite element method in this paper, through which the location of the maximal distortion and stress can be found in normal conditions.
利用有限元法,对绉片机机架的强度和刚度进行分析,找出机架在正常工作状态下的最大变形和最大应力发生的位置,针对机架的薄弱环节采取相应的措施可以得到更加稳定的机架。
The strength and stiffness of crepper frame is analysed by finite element method in this paper, through which the location of the maximal distortion and stress can be found in normal conditions.
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