Mechanical Engineering Science

Study on the Cutting Temperature of the Textured Tool by 3D FEA Simulation

TANGSiwen, LIUPengfei, WANGRui, NIUQiulin, YANGGuoqing, LIUWenhui, LIUQian

Abstract


Temperature plays an important role in the life of cutting tools. However, it is sometimes difficult to observe instantaneously because of limited data acquisition, especially for the textured tool. In this paper, the performance of microgroove textured cutting tools for three-dimensional (3D) oblique dry turning of AISI 1045 steel was studied by finite element simulation. The effects of width, depth and spacing of strip micro-texture on cutting temperature and the effect of cutting speed on cutting temperature of strip micro-texture tool were studied. The results show that the maximum temperature of the tool and the tip temperature first increase and then decrease with the increase of micro-texture width. When the micro-texture depth increases, the maximum temperature and the tool tip temperature decrease first and then increase. The highest temperature and tip temperature of the tool gradually increase with the increase of micro-texture spacing. The highest temperature and tip temperature of the tool increase with the increase of cutting speed, feed speed and cutting depth. In addition, the effective mechanism of micro-texture parameter for the temperature was proposed. It provides profound guidance for optimizing the microstructure parameters and cutting process of cutting tools according to cutting temperature in this study. It also provides an effective and practical method for the design, innovation and development of micro-textured tools.

Keywords


micro-textured cutting tool; FEM modeling; cutting temperature; cutting parameters

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References


Sharma V, Pandey P M. Recent advances in turning with textured cutting tools: A review [J]. Journal of Cleaner Production. 2016, 137: 701-715.

Sreejith P S, Ngoi B K A. Dry machining: Machining of the future [J]. 2000, 101(1): 287-291.

Weinert K, Inasaki I, Sutherland J W, et al. Dry Machining and Minimum Quantity Lubrication [J]. CIRP Annals - Manufacturing Technology. 2004, 53(2): 511-537.

Wu Z, Deng J, Su C, et al. Performance of the micro-texture self-lubricating and pulsating heat pipe self-cooling tools in dry cutting process[J]. International Journal of Refractory Metals and Hard Materials. 2014, 45: 238-248.

Xie J, Luo M, He J, et al. Micro-grinding of micro-groove array on tool rake surface for dry cutting of titanium alloy [J]. International Journal of Precision Engineering and Manufacturing. 2012, 13(10): 1845-1852.

Xing Y, Deng J, Zhao J, et al. Cutting performance and wear mechanism of nanoscale and microscale textured Al2O3/TiC ceramic tools in dry cutting of hardened steel[J]. International Journal of Refractory Metals and Hard Materials. 2014, 43: 46-58.

Xie J, Luo M J, Wu K K, et al. Experimental study on cutting temperature and cutting force in dry turning of titanium alloy using a non-coated micro-grooved tool. International Journal of Machine Tools and Manufacture [J]. International Journal of Machine Tools and Manufacture. 2013, 73: 25-36.

Lei S, Devarajan S, Chang Z. A study of micropool lubricated cutting tool in machining of mild steel [J]. Journal of Materials Processing Technology. 2009, 209(3): 1612-1620.

Koshy P, Tovey J. Performance of electrical discharge textured cutting tools [J]. CIRP Annals - Manufacturing Technology. 2011, 60(1): 153-156.

Sugihara T, Enomoto T. Improving anti-adhesion in aluminum alloy cutting by micro stripe texture [J]. Precision Engineering. 2012, 36(2): 229-237.

Obikawa T, Kamio A, Takaoka H, et al. Micro-texture at the coated tool face for high performance cutting [J]. International Journal of Machine Tools and Manufacture. 2011, 51(12): 966-972.

Sun J, Zhou Y, Deng J, et al. Effect of hybrid texture combining micro-pits and micro-grooves on cutting performance of WC/Co-based tools [J]. The International Journal of Advanced Manufacturing Technology. 2016, 86(9-12): 3383-3394.

Deng J, Lian Y, Wu Z, et al. Performance of femtosecond laser-textured cutting tools deposited with WS2 solid lubricant coatings [J]. Surface and Coatings Technology. 2013, 222: 135-143.

Kim D M, Bajpai V, Kim B H, et al. Finite element modeling of hard turning process via a micro-textured tool [J]. The International Journal of Advanced Manufacturing Technology. 2015, 78(9-12): 1393-1405.

Wanigarathne P C, Kardekar A D, Dillon O W, et al. Progressive tool-wear in machining with coated grooved tools and its correlation with cutting temperature[J]. Wear. 2005, 259(7): 1215-1224.

Song W, Deng J, Zhang X, et al. Experimental study on the cutting temperature of cemented carbides tool embedded with Caf2 solid lubricants [C]. 2nd International Conference on Architectural, Civil and Hydraulics Engineering, 2016.

Norouzifard V, Hamedi M. Experimental determination of the tool–chip thermal contact conductance in machining process [J]. International Journal of Machine Tools and Manufacture. 2014, 84(Supplement C): 45-57.

Duan R, Deng J, Ai X, et al. Experimental assessment of derivative cutting of micro-textured tools in dry cutting of medium carbon steels [J]. International Journal of Advanced Manufacturing Technology, 2017, 92(9-12).

Zhang K, Deng J, Sun J, et al. Effect of micro/nano-scale textures on anti-adhesive wear properties of WC/Co-based TiAlN coated tools in AISI 316 austenitic stainless steel cutting [J]. Applied Surface Science. 2015, 355: 602-614.




DOI: https://doi.org/10.33142/me.v1i2.1658

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