Fraunhofer Project Center for Coatings in Manufacturing PCCM

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  • Publication
    Effect of cutting edge preparation of coated tools on their performance in milling various materials
    ( 2014)
    Bouzakis, K.D.
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    Bouzakis, E.
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    Kombogiannis, S.
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    Makrimallakis, S.
    ;
    Skordaris, G.
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    Michailidis, N.
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    Charalampous, P.
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    Paraskevopoulou, R.
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    M'Saoubi, R.
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    Aurich, J.C.
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    Barthelmä, F.
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    Biermann, D.
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    Denkena, B.
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    Dimitrov, D.
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    Engin, S.
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    Karpuschewski, B.
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    Klocke, F.
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    Özel, T.
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    Poulachon, G.
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    Rech, J.
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    Schulze, V.
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    Settineri, L.
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    Srivastava, A.
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    Wegener, K.
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    Uhlmann, E.
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    Zeman, P.
    The cutting edges of coated tools are commonly treated in separate production steps during tool manufacturing. Various methods can be employed, focusing on the cutting edge strengthening by its rounding or by more complicated geometries including chamfer and optimized tool wedge radius and angles. The efficiency of diverse cutting edge preparations on the wear behaviour of coated tools, in milling different materials, was investigated in the framework of a cooperative project of the Scientific Committee "Cutting" of the International Academy for Production Engineering (CIRP). In this activity twenty academic and industrial partners were involved according to a predefined project plan.
  • Publication
    Predictive model of tool wear in milling with coated tools integrated into a CAM system
    ( 2013)
    Bouzakis, K.D.
    ;
    Paraskevopoulou, R.
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    Katirtzoglou, G.
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    Makrimallakis, S.
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    Bouzakis, E.
    ;
    Efstathiou, K.
    The coated tool wear evolution in milling at constant cutting conditions can be described analytically based among other factors on the cutting edge entry impact duration. A tool wear predictive mathematical model for milling parts of complicated geometry was created employing this methodology and a commercial CAM system. Parameters of the developed model were determined based on experimental results. In this way, the expected tool wear growth during numerically controlled milling can be estimated, considering the cutting penetrations along the tool paths, the process up or down kinematic and other factors. The application of the introduced model is demonstrated through appropriate examples. (C) 2013 CIRP.
  • Publication
    Grain size effect of pre- and post-coating treated cemented carbides on PVD films' adhesion and mechanical properties
    ( 2013)
    Bouzakis, K.-D.
    ;
    Michailidis, N.
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    Skordaris, G.
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    Tsouknidas, A.
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    Makrimallakis, S.
    ;
    Bouzakis, E.
    The grain size of coated cemented carbide tools may significantly affect the tool life by influencing either the coating adhesion to the substrate or the coating growth during deposition. In the present study three variously grained cemented carbides were coated with two different PVD films. Various pre- and post-treatments were applied, while their effect on the films' mechanical properties and adhesion was assessed by nanoindentations and inclined impact tests. The coatings deposited on ultra-fine-grained substrates exhibited the highest mechanical properties overall. The research revealed elevated adhesive properties for the fine-grained substrate compared to the normal and ultra-fine-grained one. The film adhesion of normal and fine-grained substrate can be further enhanced through micro-blasting. Post-treatments of the coatings were beneficial in all substrate cases, as brushing of the film surface removed droplets while at the same time inducing surface residual s tresses at the coating resulting in a hardness increase.
  • Publication
    Effect of tool diameter and cutting edge entry impact duration on coated tool wear in milling of various kinematics
    ( 2012)
    Bouzakis, K.-D.
    ;
    Katirtzoglou, G.
    ;
    Bouzakis, E.
    ;
    Makrimallakis, S.
    ;
    Maliaris, G.
    The die and mold industry registers nowadays a significant growth due to current developments among others in the sectors of energy and aerospace. The manufacturing procedure of dies and molds primarily includes milling operations, which are commonly linked to complicated chip geometry and contact conditions between tool and workpiece. Therefore, the optimisation of the cutting conditions and the description of the tool wear is a great challenge for production engineers. In the described experiments, cement-coated carbide inserts fixed on milling cutters with various diameters were applied in down and up milling for monitoring the wear behaviour at various cutting edge entry conditions. The corresponding developed strain rates cause different film-substrate deformations and resulting loads. These phenomena were investigated with the aid of a new impact tester with adjustable impact force characteristics. The effective tool life up to a certain flank wear land width vers us the cutting edge entry duration was explained and analytically described.