Research on the Cutting Force of Nickel-Based Superalloy

The milling experiment of GH3039 nickel-based Superalloy was made using the hard alloy tools RCKT1204MO-PM S30T and RPMT10T3MOE-41 under the same cutting parameters. The variation of the cutting force has been researched when milling GH3039 nickel-based Superalloy, through the experiment. It was fou...

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Bibliographic Details
Published in2013 Fourth International Conference on Intelligent Systems Design and Engineering Applications pp. 527 - 530
Main Authors Shi Yangyang, Zhao Can, Qi Min, Liu Yubo, Deng Pengfei
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.11.2013
Subjects
Data base
Feeds
Force
Information Technology
Materials
Metals
Milling
Resistance
TCM Literature
Thermal stability
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DOI10.1109/ISDEA.2013.525

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Summary:The milling experiment of GH3039 nickel-based Superalloy was made using the hard alloy tools RCKT1204MO-PM S30T and RPMT10T3MOE-41 under the same cutting parameters. The variation of the cutting force has been researched when milling GH3039 nickel-based Superalloy, through the experiment. It was found that under the same cutting parameters the stability of RCKT1204MO-PM S30T was better than RPMT10T3MOE-41's. In the cutting process, with the increase in cutting speed, there was a significant impact on the cutting force of X, Y, Z-direction of RPMT10T3MOE-41. However, there was a little change on the cutting force of X, Z -direction of RCKT1204MO-PM S30T, and cutting force of its V-direction force changed obviously. Increasing the feed rate, the cutting force of X, Y-direction increased, no significant change to cutting force of Z-direction.
DOI:10.1109/ISDEA.2013.525