论文信息 - A Combined Empirical and Numerical Approach for Tool Wear Prediction in Machining

A Combined Empirical and Numerical Approach for Tool Wear Prediction in Machining

Abstract In the present paper a combined empirical-numerical (finite element) approach for predicting the tool life has been introduced. This approach is based on the similarities found among the worn cutting edge geometries which have been obtained from the orthogonal tool life tests at different cutting speeds. The main difference between the proposed approach and those used in other finite element based tool wear prediction attempts is the lower computational time. Based on this approach finite element simulations of the cutting process based on worn tool geometries at several stages during the cut are run in parallel and provide the influential parameters on wear rate. Employing these parameters as input in the three well-known empirical wear rate equations, the relation between flank wear and cutting time are estimated. Predictions show agreement with experiment in terms of trend while some deviations exist in terms of the estimated magnitudes.

Keyvan Hosseinkhani | E. Ng | Keyvan Hosseinkhani | E. Ng

[1] Taylan Altan,et al. A finite element analysis of orthogonal machining using different tool edge geometries , 2004 .

[2] J. Schmidt,et al. 2D FEM estimate of tool wear in turning operation , 2005 .

[3] V. Schulze,et al. Investigations on Mechanisms of Tool Wear in Machining of Ti-6Al-4V using FEM Simulation , 2013 .

[4] H. Takeyama,et al. Basic Investigation of Tool Wear , 1963 .

[5] Maan Aabid Tawfiq,et al. A Finite Element Analysis of Orthogonal Machining Using Different Tool Edge Geometries , 2007, Engineering and Technology Journal.

[6] Aldo Attanasio,et al. Investigation and FEM-based simulation of tool wear in turning operations with uncoated carbide tools , 2010 .

[7] Keyvan Hosseinkhani,et al. Analysis of the Cutting Mechanics Under the Influence of Worn Tool Geometry , 2013 .

[8] Brandon M. Lane,et al. Thermo-chemical wear model and worn tool shapes for single-crystal diamond tools cutting steel , 2013 .

[9] T. Kitagawa,et al. Analytical prediction of cutting tool wear , 1984 .

[10] Fabrizio Micari,et al. Wear modelling in mild steel orthogonal cutting when using uncoated carbide tools , 2007 .