Face milling of Inconel 625 via wiper inserts: Evaluation of tool life and workpiece surface integrity

Saleem Muhammad Qaiser; Mumtaz Salman

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Face milling of Inconel 625 via wiper inserts: Evaluation of tool life and workpiece surface integrity

机译：Face milling of Inconel 625 via wiper inserts: Evaluation of tool life and workpiece surface integrity

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Ni-based superalloy Inconel 625, despite its extensive applications (in aerospace, oil and gas, marine, chemical processing and alike industry) is categorized as difficult-to-cut material due to distinct thermal and physical characteristics. Incidentally, the use of novel multi radii insert (wiper) geometry, that is reported to provide extended machining capabilities for different materials and machining scenarios has not been found to be reported for this alloy. This work employs PVD coated carbide inserts with novel wiper edge geometry for face milling of Inconel 625 under dry cutting conditions. Cutting speed, feed per tooth and axial depth of cut have been taken as input variables and machining performance is evaluated in terms of tool life, tool wear analysis, material removed and surface integrity aspects (namely roughness and microhardness). Taguchi L8 array has been employed for experimentation phase followed by post experimental analysis. It is found that for tool life, axial depth of cut is the most significant factor with contribution of 45.43%. Maximum tool life of 42.8 min was achieved when machining was done employing lower values of feed (0.08 mm/tooth) and axial depth of cut (0.25 mm) with higher value of cutting speed (45 m/min). For the case of surface roughness, feed/tooth is found to be the most contributing factor (PCR 46.25%). Results are found to be correlating well with the cutting temperatures generated during the process. Experiments with minimum axial depth of cuts resulted in lesser temperatures and better output parameters in general. Review of the wear pattern via SEM analysis indicate adhesion, BUE, attrition and chipping to be the main wear mechanism in general except where higher axial depth of cut (0.5 mm) was employed that culminated in fracture. For the conditions where maximum tool life was obtained, a work-hardened layer was observed beneath the machined surface extending up to similar to 400 mu m depth. An indirect comparison of the results with other literature reported face milling scenarios of Inconel 625 (where other tool types are employed), seems to indicate the effectiveness of wiper inserts employed herein. The results are well explained and supported by the physical phenomenon involved.

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《Journal of manufacturing processes》 |2020年第8期|322-336|共15页
作者
Saleem Muhammad Qaiser; Mumtaz Salman;
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作者单位

Univ Engn & Technol UET, Dept Ind & Mfg Engn, Lahore, Pakistan;

Univ Engn & Technol UET, Dept Ind & Mfg Engn, Lahore, Pakistan|Univ Lahore UOL, Dept Mech Engn, Lahore, Pakistan;

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正文语种英语
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Inconel 625; face milling; wiper; inserts;

Face milling of Inconel 625 via wiper inserts: Evaluation of tool life and workpiece surface integrity

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