Estimation of Wear Depth as an Approach to Predict Tool Service Life in Cold Forming Process
Keywords:
Wear model, Metal forming, Cold forging, Finite element analysis Simufactforming softwareAbstract
Wear phenomenon is considered as a predominant parameter in the forming processes causing the shorten tool life which in turn increases the production costs. In this study, wear depth of tool components for multi-stages of metal shell of spark plug (MSSP) manufacturing was analyzed using Archard's model with FE simulation software. The 3D geometry models were built using SolidWorks software then the models files were exported to Simufact forming software to do the settings of preprocess and FE analysis. The cylinder compression test and ring compression test were executed to get the flow stress and frictional factor respectively. Product parts dimensions, forging loads, effective stress, relative sliding velocity and contact pressure were solved and discussed. Subsequently to verify the analysis acceptance, the actual product parts measurements which obtained by coordinate measuring machine (CMM), were compared with the simulation results. It was found that the deviations of actual MSSP geometry dimensions less than (4%). Also verification is performed to forging loads at each stage which gives a good agreement between actual and FE simulation results. Finally, the wear depth of tool components were calculated for each stage using the FE software. Based on the results of wear depth from simulation and tolerance rages of actual product parts, tool service lives were predicted to find the productivities for each tool component. The results of FE simulation were compared with the CMM measurements for known productivities tool components from actual production line, which gives a good accuracy and acceptable agreement
Downloads
References
A. Groseclose, , C. Choi, , J. Gonzalez-Mendez, , and T. Altan, (2008), “Estimation of Die Stresses and Wear in Warm Forging of Steel Pinion Shafts”, ERC for Net Shape Manufacturing, Report No. E RC/NSM-08-R-34, The Ohio State University.
G. A. Lee & Y. T. Im, (1999), " Finite-element investigation of the wear and elastic deformation of dies in metal forming", Journal of Materials Processing Technology.
R. S. Lee and J. L. Jou,( 2003), "Application of numerical simulation for wear analysis of warm forging die", Journal of Materials Processing Technology Vol.140.
H.C. Lee, Y. Lee, S.Y. Lee, S. Choi, D.L. Lee, Y.T. Im, (2008), "Tool life prediction for the bolt forming process based on high-cycle fatigue and wear", Journal of Materials Processing Technology, Vol. 201.
Bundale Santosh, Ronge B.P, Misal N.D., (2014), "FEA approach for prediction and validation of die life of hot forging dies", International Journal of Application or Innovation in Engineering & Management (IJAIEM), Vol.3 .
R. Iamtanomchai & S. Bland, (2015), "Study of wear and life enhancement of hot forging dies using finite element analysis", Proceedings of the World Congress on Engineering (WCE 2015), London, U.K. Vol. II.
S.Y. Hsia & P. Y. Shih, (2015), " Wear Improvement of Tools in the Cold Forging Process for Long Hex Flange Nuts" Materials Journal.
J. H. Noh and B. B. Hwang, (2015), " Characteristics of tool wear in a combined double cup extrusion process", Journal of Mechanical Science and Technology, Vol.29.
B. A. Behrens, A. Bouguecha, M. Vucetic, A. Chugreev, (2016), "Advanced wear simulation for bulk metal forming processes", MATEC Web of Conferences, Vol.80.
Liang D., Sergej M., Jens H., Braham P.,·Mats O. (2016),"Numerical study of contact conditions in press hardening for tool wear simulation", International Journal of Material Forming.
F. R. Biglari & M. Zamani, (2008), "Die wear profile investigation in hot forging", Proceedings of the World Congress on Engineering (WCE), London, U.K Vol. II, 2008.
Ömer Necati Cora (2004), " Friction analysis in cold forging", Thesis, Middle East Technical University.
M.W. Fu, (2017),"Design and Development of Metal-Forming Processes and Products Aided by Finite Element Simulation", Springer International Publishing AG.
Published
How to Cite
Issue
Section
Copyright (c) 2019 Akram Mahdi Abd , Lutfi Y. Zaidan, Mohsin A. AlShammari
This work is licensed under a Creative Commons Attribution 4.0 International License.