Ramírez P., FernandoSoldani, XavierLoya Lorenzo, José AntonioMiguélez Garrido, María Henar2022-08-242022-08-242017-11-15Wear, (2017), v. 390-391, pp.: 125-134.0043-1648https://hdl.handle.net/10016/35598A general methodology is proposed and demonstrated for modeling the progression of crater wear on cutting tools used for steel machining. Dimensional analysis and Finite Element Analysis of metal cutting are the foundations of this new approach. The dimensional analysis resulted in a differential equation which describes wear rate as a function of dimensionless variables. Numerical models of cutting allow one to estimate local variables associated with wear at tool-chip contact. Orthogonal cutting simulations were carried out with commercial code DEFORM - 2D Ver 11.0. AISI 1018 steel was used as the workpiece material for an uncoated carbide cutting tool. Prediction of wear evolution and crater profiles on the tool's rake face were in good agreement with experimental data.9eng© 2017 Elsevier Ltd. All rights reserved.Atribución-NoComercial-SinDerivadas 3.0 EspañaWear modelingMetal cuttingCrater wearFEMAISI 1018Dimensional analysisresearch articleIngeniería Mecánicahttps://doi.org/10.1016/j.wear.2017.07.015open access125134WEAR390-391AR/0000020618