Improved Process Geometry Model with Cutter Runout and Elastic Recovery in Micro-End Milling

机译：改进的过程几何模型，带有刀具跳动和微端铣削中的弹性恢复

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摘要

A process geometry model determines engagement angle and instantaneous uncut chip thickness which forms basis in predicting cutting forces and surface quality in micro-end milling operation. This paper presents a process geometry model incorporating cutter runout, elastic recovery of work material and minimum chip thickness. These characteristics are incorporated effectively by realizing different engagement cases that are likely to occur during micro-milling. The model considers interactions of tooth trajectory under consideration with surfaces generated by previous teeth to develop a realistic process geometry model. It has been demonstrated that the inclusion of tooth trajectory interactions has significant effect on prediction accuracy of a model. The results are also substantiated by conducting machining experiments at various cutting conditions.

机译：过程几何模型决定了在微端铣削操作中预测切割力和表面质量的基础上形成的接合角和瞬时未切割芯片厚度。本文介绍了加入刀具跳动，工作材料弹性回收和最小芯片厚度的过程几何模型。通过实现在微铣削期间可能发生的不同接合壳体有效地结合了这些特征。该模型考虑了先前牙齿产生的表面来开发现实过程几何模型的牙齿轨迹的相互作用。已经证明包含齿轨道相互作用对模型的预测精度具有显着影响。通过在各种切割条件下进行加工实验，还通过进行加工实验来证实结果。

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来源
《North American Manufacturing Research Conferece》|2016年|668p|共17页
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作者
Tesfaye M. Moges; K. A. Desai; P. V. M. Rao;
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中图分类 TH16-53;
关键词
Micro-end milling; Engagement angle; Chip thickness; Tooth trajectory interactions; Cutter runout; Elastic recovery;

机译：微端铣削;接合角;芯片厚度;牙齿轨迹相互作用;刀具跳动;弹性恢复;

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专利

1. Improved Process Geometry Model with Cutter Runout and Elastic Recovery in Micro-end Milling [J] . Tesfaye M. Moges, K.A. Desai, P.V.M. Rao Procedia Manufacturing . 2016,第4期

机译：具有微动铣削中的刀具跳动和弹性回复的改进的工艺几何模型
2. Process geometry modeling with cutter runout for milling of curved surfaces [J] . K. A. Desai, Piyush K. Agarwal, R. V. M. Rao International Journal of Machine Tools & Manufacture: Design, research and application . 2009,第12a13期

机译：具有刀具跳动的过程几何建模，用于铣削曲面
3. An improved method for cutter runout modeling in the peripheral milling process [J] . Santosh Ranganath, John W. Sutherland Machining Science and Technology . 2002,第1期

机译：铣削过程中刀具跳动建模的一种改进方法
4. Improved Process Geometry Model with Cutter Runout and Elastic Recovery in Micro-End Milling [C] . Tesfaye M. Moges, K. A. Desai, P. V. M. Rao North American Manufacturing Research Conferece . 2016

机译：改进的过程几何模型，带有刀具跳动和微端铣削中的弹性恢复
5. Modeling and optimization of micro-end milling process for micro-manufacturing. [D] . Thepsonthi, Thanongsak. 2014

机译：用于微制造的微端面铣削过程的建模和优化。
6. Improved accuracy of mandible geometry reconstruction at the stage of data processing and modeling [O] . Grzegorz Budzik, Paweł Turek -1

机译：在数据处理和建模阶段提高下颌骨几何重建的准确性
7. Improved Process Geometry Model with Cutter Runout and Elastic Recovery in Micro-end Milling [O] . Moges Tesfaye M., Desai K.A., Rao P.V.M. 2016

机译：微型铣削中具有刀具跳动和弹性回复的改进的工艺几何模型
8. Blending Low Enriched Uranium with Depleted Uranium to Create a Source Material Ore that can be Processed for the Recovery of Yellowcake at a Conventional Uranium Mill [R] . Schutt, S. M., Hochstein, R. F., Frydenlund, D. C., 2003

机译：将低浓度铀与贫铀混合，制成原料矿石，可在常规铀矿厂加工回收黄饼

Improved Process Geometry Model with Cutter Runout and Elastic Recovery in Micro-End Milling

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