On the influence of work material microstructure on chip formation, cutting forces and acoustic emission when machining Ti-6A1-4V

机译：在加工时加工芯片形成，切削力和声发射的影响力

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The influence of heat treatment of work material on chip formation, when machining Ti-6A1-4V, was studied through microstructural investigation of chips, as well as response on cutting forces and acoustic emission. Three different microstructures were investigated; equiaxed, bimodal and Widmanstatten. It is well known that machining of titanium produces shear localized chips at all industrially practical cutting speeds and feed rates, however there is also a transition from aperiodic to periodic sawtooth chip formation. The feed rate was varied at constant cutting speed to study this transition from aperiodic to periodic saw-tooth chips in the three microstructures. Face turning cutting tests were used when sensor signals were collected. The results from this investigation stress the importance to consider work material microstructure when studying the chip formation process, and its impact on cutting forces and acoustic emission, when machining Ti-6A1-4V.

机译：通过芯片的微观结构调查研究了在加工Ti-6a1-4V时，在加工Ti-6a1-4v时对芯片形成的热处理对芯片形成的影响，以及对切割力和声发射的反应。研究了三种不同的微观结构; Equiaxed，Bimodal和Widmanstenten。众所周知，钛的加工在所有工业上实际的切割速度和进料速率下产生剪切局部芯片，但是也存在从非周期性到周期性锯齿屑形成的过渡。进料速率以恒定的切割速度变化，以研究从非周期性到三种微结构中的过期锯齿屑的这种过渡。在收集传感器信号时使用面部转动切割测试。该研究的结果应对在研究芯片形成过程时考虑工作材料微观结构的重要性，以及加工Ti-6A1-4V时对切割力和声发射的影响。

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《International Academy for Production Engineering International Conference on Intelligent Computation in Manufacturing Engineering》|2014年||共6页
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S. Cedergren; G. Petti; G. Sjoberg;
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中图分类人工智能理论;
关键词
Machinability; Microstructure; Titanium; Acoustic Emission;

机译：可加工性;微观结构;钛;声排放;

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专利

1. On the Influence of Work Material Microstructure on Chip Formation, Cutting Forces and Acoustic Emission When Machining Ti-6Al-4V [J] . S. Cedergren, G. Petti, G. Sj?berg Procedia CIRP . 2013,第5期

机译：加工Ti-6Al-4V时工作材料的显微组织对切屑形成，切削力和声发射的影响
2. Study on acoustic emission in machining hardened steels part 2: acoustic emission during continuous chip formation with a non-overlapping cutting arrangement [J] . J. Barry, G. Byrne Proceedings of the Institution of Mechanical Engineers, Part B. Journal of engineering manufacture . 2001,第B11期

机译：淬火钢加工中的声发射研究第2部分：采用非重叠切削装置连续切屑形成过程中的声发射
3. Influence of microstructure on surface Integrity in turning-part II: the influence of a microstructure of the workpiece material on cutting forces [J] . J. Grum, M. Kisin International Journal of Machine Tools & Manufacture: Design, research and application . 2003,第15期

机译：微观结构对车削第二部分表面完整性的影响：工件材料的微观结构对切削力的影响
4. On the influence of work material microstructure on chip formation, cutting forces and acoustic emission when machining Ti-6A1-4V [C] . S. Cedergren, G. Petti, G. Sjoberg International Academy for Production Engineering International Conference on Intelligent Computation in Manufacturing Engineering . 2014

机译：在加工时加工芯片形成，切削力和声发射的影响力
5. A generalized approach for mechanics of chip formation in steady-state and dynamic orthogonal metal cutting using a new model of shear zone with parallel boundaries and its validation to cutting-forces prediction in self-piloting machining. [D] . Hayajneh, Mohammed. 1998

机译：使用具有平行边界的新剪切区模型在稳态和动态正交金属切削中形成切屑的力学原理的通用方法，并验证了自动驾驶加工中的切削力预测。
6. Influences of Cutting Speed and Material Mechanical Properties on Chip Deformation and Fracture during High-Speed Cutting of Inconel 718 [O] . Bing Wang, Zhanqiang Liu, Xin Hou, 2018

机译：Inconel 718高速切削过程中切削速度和材料力学性能对切屑变形和断裂的影响
7. Impact of Cutting Forces and Chip Microstructure in High Speed Machining of Carbon Fiber – Epoxy Composite Tube [O] . Roy Y. Allwin, Gobivel K., Sekar K.S. Vijay, 2017

机译：切削力和切屑组织对碳纤维 - 环氧复合管高速加工的影响

On the influence of work material microstructure on chip formation, cutting forces and acoustic emission when machining Ti-6A1-4V

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