DISLOCATION THEORY OF ORTHOGONAL METAL CUTTING OF CU-ZN ALLOYS

机译：Cu-ZN合金正交金属切削的位错理论

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The effects of stacking fault energy and hardness on the shear process during low-speed orthogonal metal cutting were examined in a designed experiment of 1680 tests in Copper Zinc (CU-ZN) alloys. Existing shear zone models were compared to the experimental results generated by a Videographic Quick Stop method. Analysis of the data indicates that the onset of shear plane is more properly viewed as the activation of glide plane. This in turn is a result of the available slip planes, which are a function of the materials crystalline structure, the stacking fault energy and the dislocation density (i.e., the amount of work-hardening), as constrained by the tool's rake face angle. Merchant's Force Diagram is revised using an extension of the existing diagram to incorporate the material's crystalline structure, incorporating well established dislocation theory.

机译：在1680个铜锌（CU-ZN）合金设计试验中，检验了堆垛层错能和硬度对低速正交金属切削过程中剪切过程的影响。将现有的剪切区模型与通过视频快速停止方法生成的实验结果进行了比较。数据分析表明，将剪切平面的开始更恰当地视为滑移平面的激活。反过来这是可用的滑动面的结果，该滑动面是材料的晶体结构，堆垛层错能和位错密度（即加工硬化量）的函数，并受刀具前刀面角度的约束。使用现有图的扩展对商人的力图进行了修订，以纳入材料的晶体结构，并结合公认的位错理论。

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《ASME international mechanical engineering congress and exposition》|2018年|V002T02A012.1-V002T02A012.13|共13页
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Lewis N. Payton;
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Orthogonal Metal Cutting; Merchant Force Diagram; Payton Force Diagram; Cutting Forces; Metal Cutting;

机译：正交金属切削;商人力图;佩顿力图;切削力金属切割;

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3. Impact of J-band filling on the dislocation properties of bcc transition metals: The case of tantalum-tungsten alloys investigated by density-functional theory [J] . Hong Li, Claudia Draxl, Stefan Wurster, Physical review . 2017,第9期

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4. DISLOCATION THEORY OF ORTHOGONAL METAL CUTTING OF CU-ZN ALLOYS [C] . Lewis N. Payton ASME International Mechanical Engineering Congress and Exposition . 2019

机译：Cu-Zn合金正交金属切割的位错理论
5. Dislocation theory of orthogonal metal cutting of copper-zinc alloys [D] . Payton, Lewis Nathaniel 2002

机译：铜锌合金正交金属切削的位错理论
6. Dislocation Dynamics-Based Modeling and Simulations of Subsurface Damages Microstructure of Orthogonal Cutting of Titanium Alloy [O] . Jinxuan Bai, Qingshun Bai, Zhen Tong 2017

机译：基于位错动力学的钛合金正交切削亚表面损伤微观组织建模与仿真
7. Dislocation Dynamics-Based Modeling and Simulations of Subsurface Damages Microstructure of Orthogonal Cutting of Titanium Alloy [O] . Jinxuan Bai, Qingshun Bai, Zhen Tong 2017

机译：基于位错动力学的钛合金正交切削次表面损伤微观组织模拟与仿真
8. Further Development of a Finite Element Model of Orthogonal Metal Cutting: Final Report [R] . Strenkowski, J. S. 1987

机译：正交金属切削有限元模型的进一步发展：最终报告

DISLOCATION THEORY OF ORTHOGONAL METAL CUTTING OF CU-ZN ALLOYS

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