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1.
A Study of Stagnation Points on Cutting Edge
正交切削切削刃钝圆上分流点的研究
2.
A Cutting Model under the Influence of Cutting Edge Roundness in 0rthogonal Metal Cutting
一个考虑刀具切削刃钝圆影响的正交切削模型
3.
The FEM Simulation of Cutting Force in Orthogonal Metal Cutting Process;
金属正交切削加工中切削力的有限元模拟
4.
The FEM Simulation of High Speed Milling Based on Orthogonal Cutting Model;
高速铣削中基于正交切削模型的有限元模拟
5.
Experimental Study on Adiabatic Shear Behavior in Chip Formation during Orthogonal Cutting
正交切削切屑形成中绝热剪切行为的实验研究
6.
An Experimental Study of the Adiabatic Shear Behavior in Orthogonal Cutting of High Strength Steel
正交切削高强度钢绝热剪切行为的实验研究
7.
forming process and mechanism of cutting direction burr under orthogonal cutting are simulated and analyzed;
仿真并分析了正交切削条件下切削方向毛刺的形成过程与机理;
8.
FEM Simulation and Experiment Research of Cutting Temperature and Force in Orthogonal Cutting of Titanium Alloys;
钛合金正交切削的温度场和切削力仿真与试验研究
9.
A NEW MODEL OF STRESS ANALYSIS ON THE DEFORMATION ZONE IN FRONT OF THE TOOL CUTTING EDGE FOR ORTHOGONAL MACHINING
正交切削时刃前区应力分析的一个新模型
10.
NUMERICAL ANALYSIS FOR TEMPERATURE FIELD OF ORTHOGONAL CUTTING UNDER DIFFERENT CONDITIONS
不同条件下的正交切削温度场的数值分析
11.
Establishment of Orthogonal Cutting Finite Element Model and Its Key Technology
正交切削加工有限元模型的建立及其关键技术
12.
Orthogonal Cutting Force Model with Tool Flank Wear
考虑后刀面磨损条件下的正交切削模型分析
13.
Study on Microcosmic Mechanism of Adiabatic Shear Behavior in Orthogonal Cutting of High Strength Steel;
正交切削高强度钢绝热剪切行为的微观机理研究
14.
Research on Mechanics Modeling and Computer Simulation in Orthogonal Cutting of Hardened Die Steel;
淬硬模具钢正交切削的力学建模与计算机仿真研究
15.
Calculating Strain Rate and Strain During Orthogonal Cutting in Accordance to Streamline Theory
基于流线理论计算正交切削中应变率和应变的方法
16.
The Influence Analysis on Micro Orthogonal Turn-Milling Cutting Speed to Chip Formation;
微小型正交车铣切削速度对切屑变形影响分析
17.
Continously,by the method of orthogonal design,in the certainconditions, the mathematic models for cutting force and temperature were esta-lished;
继而,采用正交设计试验方法,建立了某些切削条件下,切削力、切削温度的数学模型;
18.
Minimum Chip Thickness in Orthogonal Micro-cutting Based on Plasticity Strain Gradient Theory
基于应变梯度理论的正交微车削中最小切削厚度预测