Study on the Adhering Disrepair and Groove Optimization of Cutting Tools for Difficult-to-Machine Materials

Abstract:

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In the course of the milling experiments with the difficult-to-machine material 3Cr-1Mo-1/4V steel, we have found the substance of the adhering disrepair. In addition, we forecast the predominant capability of the waved-edge milling insert with complex 3-D grooves by the synthetically blurry judgement. Eventually, we give the mathematical model between the milling temperature and the maximal adhering disrepair depth of the rake face, and analyze the rule that the milling temperature affects the adhering disrepair. What’s more, we testify the predominant capability of the waved-edge milling insert.

Info:

Periodical:

Key Engineering Materials (Volumes 315-316)

Edited by:

Zhejun Yuan, Xipeng Xu, Dunwen Zuo, Julong Yuan and Yingxue Yao

Pages:

715-719

DOI:

10.4028/www.scientific.net/KEM.315-316.715

Citation:

Z. J. Li et al., "Study on the Adhering Disrepair and Groove Optimization of Cutting Tools for Difficult-to-Machine Materials", Key Engineering Materials, Vols. 315-316, pp. 715-719, 2006

Online since:

July 2006

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Price:

$35.00

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