1) plow surface
犁体曲面
1.
Modeling design of plow surface based on uniform B spline;
基于均匀B样条的犁体曲面造型设计
2.
According to the plow surface generation principle, the mathematical model of plow surface is established by using the parameters, then by Pro/E software to establish the virtual plow surface model, based on which the dynamic simulation analysis was conducted, and the resistance curve of surface in the process of plow turning was found.
根据犁体曲面生成原理,使用参数法建立犁体曲面的数学模型,并利用Pro/E软件建立犁体曲面的虚拟模型,在此基础上进行动力仿真分析,得到犁体曲面在翻土过程中犁耕阻力的变化曲线图。
2) plough surface
犁体曲面
1.
Firstly,three traditional different types plough were selected,and then the points of these plough surface were scaled with three-dimension coordinate scale instrument.
根据铧式犁的结构特点,结合现代计算机辅助设计,研究并提出了一种基于Pro/E二次开发的犁体曲面计算机辅助设计方法。
2.
Through an analysis of the current situation of the design for the plough surface , according to the special working demand for the plough and the trait of modern design method, the paper studied and put forward a method for the design of plough surface, i.
通过对犁体曲面设计现状的分析,根据铧式犁特定的作业要求,结合现代设计方法的特点,研究并提出了一种用于犁体曲面设计的方法——Pro/E设计方法。
3.
The mathematical model of horizontal straight-line plough surface was established using three-dimensional parametric by analyzing the design method of plough surface.
通过分析犁体曲面的设计方法,使用三维参数化建立水平直元线型犁体曲面的数学模型。
3) plough body surface
犁体曲面
1.
In this paper, It analysizes Basic properties and FEM of the surface on the basic of LEMLON plough body surface, and Finally finds the defects and weak links of design.
以LEMLON犁体曲面为基础,在Pro/E中分析了犁体曲面的基本性能,指出其存在的问题;然后,在An-sys上对梨体曲面进行有限元分析,找出了犁体曲面在设计中的薄弱环节,从而为犁体曲面的优化设计提供了有利的支撑。
2.
In this paper , we introduced a method to design the plough body surface with three-dimensional parametric design.
介绍了水平直元线三维参数化设计犁体曲面的方法,并利用其设计了相关的犁体曲面。
4) columniform plow surface
圆柱形犁体曲面
5) high speed plough surface
高速犁体曲面
1.
A new method of optimal design for high speed plough surface;
高速犁体曲面优化设计方法之新见解
6) Plow Surface
犁曲面
1.
Study on Influencing Factors of Plow Surface Working Performance Based the Dynamic Simulation;
基于动力学仿真的犁曲面工作性能影响因素研究
补充资料:犁花体
“梨花体”就是口语诗歌.
网友以嘲笑的心态仿写了大量的口语诗歌,更有好事者取赵丽华名字谐音成立“梨花教”,称作者为“诗坛芙蓉”。而“梨花体”诗歌语言,一时在网上肆意蔓延。
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