The effects of cutting tool thermal conductivity on tool-chip contact length and cyclic chip formation in machining with grooved tools

A. K. Balaji; G. Sreeram; I. S. Jawahir; E. Lenz

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The effects of cutting tool thermal conductivity on tool-chip contact length and cyclic chip formation in machining with grooved tools

机译：切削刀具热导率对带槽刀具加工中刀具-切屑接触长度和循环切屑形成的影响

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This paper presents an experimental analysis of the effects of cutting tool thermal conductivity on machining performance of grooved tools. A new methodology for defining the tool-chip contact length in grooved tools is proposed. Performance ofuncoated carbide grooved tools tested under a range of thermal conductivities (3292 W/m deg.K) are correlated with the variations of cyclic cutting forces, developed chip length, chip thickness and chip breaking patterns. The thickness of the retardedzone and the grain elongation orientation in the chip are measured along the curled chip and their strong influence on the chip formation process is shown.

机译：本文介绍了切削刀具热导率对开槽刀具加工性能影响的实验分析。提出了一种用于定义带槽刀具中刀具与切屑接触长度的新方法。在一定的热导率（3292 W / m deg.K）下测试的无涂层硬质合金带槽刀具的性能与循环切削力，发达的切屑长度，切屑厚度和断屑方式的变化相关。沿着卷曲的切屑测量切屑中的延迟区的厚度和晶粒延伸方向，并显示它们对切屑形成过程的强烈影响。

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《CIRP Annals》 |1999年第1期|共6页
作者
A. K. Balaji; G. Sreeram; I. S. Jawahir; E. Lenz;
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原文格式 PDF
正文语种 eng
中图分类一般性问题;
关键词
Machining; Tool thermal conductivity; Chip formation;

机译：机械加工;工具导热系数;切屑形成;

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1. The effects of cutting tool thermal conductivity on tool-chip contact length and cyclic chip formation in machining with grooved tools [J] . A. K. Balaji, G. Sreeram, I. S. Jawahir, CIRP Annals . 1999,第1期

机译：切削刀具热导率对带槽刀具加工中刀具-切屑接触长度和循环切屑形成的影响
2. Prediction of Tool-Chip Interface Friction and Chip-Groove Effects in Machining with Restricted Contact Grooved Tools Using the Universal Slip-Line Model [J] . X. Wang, I.S. Jawahir Key Engineering Materials . 2003,第parta2期

机译：使用通用滑移线模型预测用受限接触槽刀具加工时的刀具-芯片界面摩擦和切屑槽效应
3. Orthogonal cutting of TA6V alloys with chamfered tools: Analysis of tool-chip contact lengths [J] . Barelli Floran, Wagner Vincent, Laheurte Raynald, Proceedings of the Institution of Mechanical Engineers, Part B. Journal of engineering manufacture . 2017,第13期

机译：具有倒角工具的Ta6V合金的正交切割：工具芯片接触长度分析
4. AN ANALYTICAL SOLUTION TO CUTTING FORCES AND CHIP THICKNESS IN MACHINING WITH A GROOVED TOOL INCLUDING THE TOOL-CHIP CONTACT ON THE TOOL SECONDARY RAKE FACE [C] . N. Fang, C. Wood, W. Wang Conference on Transactions of the North American Manufacturing Research Institution of SME May 20-23, 2003 Hamilton, Ontario, Canada . 2003

机译：槽形刀具加工时切削力和切屑厚度的解析解决方案，其中包括刀具二次耙面上的刀具-切屑接触
5. An experimental and theoretical study of variable tool-chip interfacial friction and cyclic chip formation in machining with flat-faced and grooved tools. [D] . Balaji, Alagar Krishnan. 2000

机译：平面和带槽刀具加工中可变刀具-切屑界面摩擦和循环切屑形成的实验和理论研究。
6. Effect of the Adaptive Response on the Wear Behavior of PVD and CVD Coated Cutting Tools during Machining with Built Up Edge Formation [O] . German Fox-Rabinovich, Iosif S. Gershman, Kenji Yamamoto, 2020

机译：建立边缘地层加工过程中PVD和CVD涂层切削刀具磨损行为的影响
7. Roughness of a Machined Surface with Artificial Restriction of Tool-Chip Contact Length (Report II) [O] . 油敵夫, 北川武揚, Tetuo TO, 1965

机译：人为限制工具-芯片接触长度的加工表面粗糙度（报告II）

The effects of cutting tool thermal conductivity on tool-chip contact length and cyclic chip formation in machining with grooved tools

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