Tool temperatures and wear in micro-machining Cu-Ni alloys with diamond tools: models, simulations and experiments

机译：用金刚石工具微加工Cu-Ni合金的工具温度和磨损：模型，模拟和实验

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Estimating cutting edge temperatures in micro-machining Cu-Ni alloys with single crystal diamond tools is the purpose of this paper, in order to assess how temperature affects tool wear, perhaps through a thermally activated mechanism. Classical heat conduction models, numerical temperature calculation models and finite element chip formation models are developed and applied to determine relations between temperature and cutting conditions in non-dimensional form that thus have a wide transferability. Experiments calibrate and in part validate the results. Tool wear nose turning Monel 400 alloy is reported. It shows thermally activated dependence on temperature, with activation energy 53 ± 6 kJ/mol.

机译：用单晶金刚石工具估计微加工Cu-Ni合金中的切削刃温度是本文的目的，以评估温度如何影响工具磨损，也许通过热敏机构。经典的热传导模型，数值计算模型和有限元芯片形成模型进行了开发和应用，以确定温度与非尺寸形式的切割条件之间的关系，从而具有宽的可转移性。实验校准，部分验证结果。报道了工具磨损鼻鼻器鼻子400合金。它显示出对温度的热激活依赖性，激活能量53±6 kJ / mol。

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《CIRP Conference on Modelling of Machining Operations》|2015年||共6页
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T.H.C. Childs; C.J. Evans; E.C. Browy;
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中图分类机械制造工艺;
关键词
Diamond cutting tools; Temperature modelling; Chemical wear;

机译：钻石切割工具;温度造型;化学磨损;

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专利

1. Tool Temperatures and Wear in Micro-machining Cu-Ni Alloys with Diamond Tools: Models, Simulations and Experiments [J] . T.H.C. Childs, C.J. Evans, E.C. Browy, Procedia CIRP . 2015,第2期

机译：用金刚石工具微加工Cu-Ni合金的工具温度和磨损：模型，模拟和实验
2. Experiment-based statistical prediction on diamond tool wear in micro grooving Ni-P alloys [J] . Su-Jin Kim, Duy Le, Seok-Woo Lee Diamond and Related Materials . 2014,第Null期

机译：基于实验的微槽Ni-P合金金刚石刀具磨损的统计预测
3. MD simulation of tool wear behaviour based on changes of tool rake and flank angle caused by diamond tool position adjustment [J] . Wang Ming Hai, You Si Yao, Wang Fu Ning, Molecular simulation . 2019,第4a6期

机译：基于钻石刀具位置调整刀具耙和侧面角度的刀具磨损行为的MD仿真
4. Tool temperatures and wear in micro-machining Cu-Ni alloys with diamond tools: models, simulations and experiments [C] . T.H.C. Childs, C.J. Evans, E.C. Browy CIRP Conference on Modelling of Machining Operations . 2015

机译：用金刚石工具微加工Cu-Ni合金的工具温度和磨损：模型，模拟和实验
5. The evaluation of chemical wear on single crystal diamond tools while diamond turning a binary Cu-Ni alloy system. [D] . Browy, Eric Calmer. 2014

机译：在金刚石车削二元Cu-Ni合金系统时评估单晶金刚石工具的化学磨损。
6. Mechanism-Based FE Simulation of Tool Wear in Diamond Drilling of SiCp/Al Composites [O] . Junfeng Xiang, Siqin Pang, Lijing Xie, 2018

机译：基于机理的SiCp / Al复合材料金刚石钻削刀具磨损的有限元模拟
7. Tool Temperatures and Wear in Micro-machining Cu-Ni Alloys with Diamond Tools: Models, Simulations and Experiments [O] . Childs T.H.C., Evans C.J., Browy E.C., 2015

机译：用金刚石工具微加工Cu-Ni合金的工具温度和磨损：模型，模拟和实验
8. Diamond tool wear of electrodeposited nickel-phosphorus alloy. [R] . Dini, J. W., Donaldson, R. R., Syn, C. K., 1990

机译：电沉积镍 - 磷合金的金刚石工具磨损。

Tool temperatures and wear in micro-machining Cu-Ni alloys with diamond tools: models, simulations and experiments

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