Abstract
DLC has been applied as coating material in the machining of difficult-to-cut materials, and shows a good cutting performance. In this study, Cr/W-DLC/DLC-coated tools were compared with other three kinds of coated tools (TiC-, TiAlN-, Al2O3-) to investigate the cutting performance in the machining of Al–Si alloy. The influence of Cr/W-DLC/DLC-coated tools on the cutting performance under different cutting speeds was studied. Cutting force, cutting temperature, heat partition coefficient, cutting deformation rate, plastic deformation of machined surface, the interface temperature, and stress were investigated numerically with the aid of finite element method (FEM). Actual cutting experiments were carried out to verify the FEM models by means of the cutting force and cutting temperature measurement. The investigation results show that Cr/W-DLC/DLC-coated tool had the best cutting performance among these four kinds of coated tools. With the increasing of cutting speeds, cutting force and cutting temperature showed an increase trend, while the plastic deformation depth of machined surface and heat partition into cutting tool all showed a decrease trend during the machining with Cr/W-DLC/DLC-coated tool. This investigation can provide the theory basis or technical guidance for the cutting practice with Cr/W-DLC/DLC-coated tools.
Highlights
Advanced coating techniques have been applied on cemented carbide cutting tools in order to prolong the tool life and improve the machining quality in industrial applications[1,2,3]
The finite element method (FEM) is a highly efficient and commonly used numerical calculation method, which has been widely used in the field of cutting
The FEM can solve the limitation of the actual cutting experiment, and the simulation result can provide more data than the experiment[5]
Summary
Advanced coating techniques have been applied on cemented carbide cutting tools in order to prolong the tool life and improve the machining quality in industrial applications[1,2,3]. Considering the potential application of DLC composite coated tools in cutting Al-Si alloys, whole DLC coated cemented carbide tools were prepared by direct current plasma enhanced chemical vapor deposition (PACVD). Cross-sectional morphology of Cr/W-DLC/DLC composite coating with transition interlayers on YG8 cemented carbide substrate were observed as shown, The EDS spectral line scanning area is indicated by the arrowed line in the cross-sectional morphology of Fig. 1(a), and the arrow direction indicates the EDS spectrum line scanning direction.
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