1) loading path
加载路径
1.
The study of loading path optimization for tube hydroforming process;
管件液压成形中加载路径的优化设计方法研究
2.
Effects of loading paths on thickness distribution of a hydroforming component;
加载路径对内高压成形件壁厚分布影响分析
3.
Investigation of the effect of loading paths on hydroforming of T-shaped tubes;
加载路径对T型管内高压成形的影响
2) loading paths
加载路径
1.
Optimization for loading paths in hydroforming using genetic algorithm in conjunction with FE codes;
遗传算法结合有限元模拟对液压胀形加载路径的优化
2.
Optimization of loading paths in tube hydroforming process
管件液压成形中加载路径的确定方法研究
3.
Influence of loading paths on hydroforming process of stainless steel spherical part
加载路径对不锈钢球形件内高压成形过程影响
3) loading route
加载路径
1.
In this paper, bulge process of outside and inner tubes are simulated respective using two-dimensional model with FEA software MARC, the tube shape and distribution of wall thickness influence of the selected loading route on tube tie-in bulge is analyzed, and the experiments of tube tie-in bulge forming are successfully tried.
利用MARC软件,采用特定加载路径分别对球形旋转管接头外管及内管的胀形过程进行了二维数值模拟,分析了所选两种加载路径对胀形时管材形状及壁厚分布的影响,进行了球形旋转管接头液压胀形试验,成功试制出合格旋转管接头,为管接头的胀形加工提供了理论依据。
2.
The practice of tube bulge shows that the choice of loading route and forming limit of tube is important to the shape and quality of produce.
胀形生产实践表明,加载路径的选择和管坯的成形极限对管件成形及成形质量有着重要影响。
4) Load path
加载路径
1.
2,and simulation of the T-tube hydroforming was performed through finding an appropriate load path.
2建立有限元模型,找出了合适的加载路径,进行了液压胀形仿真。
5) loading and unloading paths
加载和卸载路径
6) hydraulic pressure loading path
液压加载路径
1.
Effect of hydraulic pressure loading paths on forming of automobile panels based on numerical simulation;
以覆盖件成形壁厚分布为评定标准,研究不同液压加载路径对成形质量的影响,获得合理的液压加载曲线,提高覆盖件的贴模性和刚度。
补充资料:自动加载下载的*.dmt材质方法
自动加载下载的*.dmt材质方法一
1、建立如下路径的文件夹:
E:\graphiclib\graphic-library\
然后把你下载的adv_materials文件夹(里面材质了)放到刚才建立的路径里,变成如下路径
E:\graphiclib\graphic-library\adv_materials
2、如图配制搜索路径
3、这样调用!点PHOTOLUX材质库
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条