1) loading trajectory
加载轨迹
1.
Optimization of loading trajectory for skin stretch forming process;
飞机蒙皮拉伸成形加载轨迹设计及优化
2.
Design and optimization of the loading trajectory in aircraft skin drape forming process
飞机蒙皮包覆拉伸成形加载轨迹设计优化方法
2) arbitrary load locus
负载轨迹
1.
Optimum design on the power mechanism of pre-opened valve controlling system under arbitrary load locus;
任意负载轨迹时预开口阀控缸系统动力机构的优化设计
3) machining path
加工轨迹
1.
The calculation method for real machining path of electrode-wire central line in numerical control wedm programming and relevant technological measures were put forward.
针对电火花线切割工艺特征,分析了线切割加工中电极丝偏移量产生的原因,提出数控编程中电极丝中心线实际加工轨迹的计算方法及工件线切割加工的工艺性分析与特殊工艺的处理方法,以提高线切割加工件的加工精度和制造质量。
4) machining track
加工轨迹
1.
In mastercam programming, the starting point, hight of raising cutting tool and the machining track are all affected by Absolute and Incremental coordinates.
Mastercam自动编程中,刀具的下刀点、提刀高度以及加工轨迹受Absolute和Incremental的影响,应合理的选择Absolute或Incremental,不仅可提高加工效率,而且可得到合理的加工轨迹。
2.
Through the customization of the profile milling track of Pro/ENGINEER,a reasonable machining track can be gotten.
通过对Pro/ENGINEER轮廓铣削加工轨迹的人工定制,获得合理的加工轨迹。
5) tool path
加工轨迹
1.
It is based on modifying the spline tool path so that it is op.
提出了一个五次方样条曲线参数化方法通过改变样条曲线加工轨迹,得到一个光滑连续的速率轮廓,减少曲线在进行精确的插补时的运算量并对最优弧长参数化五次样条曲线进行仿真实验验证了提出的理论。
2.
A new sheet metal dieless forming technology is introduced It adopts the principle of “layered manufacture” of rapid prototyping An approach of tool path generation based on the STL file for sheet metal part forming is presented By slicing the offset model of STL file, the forming tool path can be obtained from the intersection line of the offset surface with horizontal plan
介绍了一种采用快速原型制造原理的金属板材无模成形技术 根据快速成形技术中分层制造的思想 ,从板材无模成形的技术特点出发 ,采用基于STL文件的金属板材无模成形的加工轨迹生成方法 ,通过构造STL文件的等距模型并对其进行切片 ,得到加工轨
6) locus of loaded point
载荷点轨迹
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