Smart City 360°. The second EAI International Summit, Smart City 360°, Bratislava, Slovakia, November 22-24, 2016. Revised Selected Papers

Research Article

Evaluation of selected surface integrity parameters after machining of composite materials with natural reinforcement

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  • @INPROCEEDINGS{10.4108/eai.14-2-2017.152157,
        author={J. Zajac and F. Botko and S. Radchenko and P. Radic and A. Bernat and J. Roman and B. Zajac},
        title={Evaluation of selected surface integrity parameters after machining of composite materials with natural reinforcement},
        proceedings={Smart City 360°. The second EAI International Summit, Smart City 360°, Bratislava, Slovakia, November 22-24, 2016. Revised Selected Papers},
        publisher={EAI},
        proceedings_a={SMARTCITY360},
        year={2017},
        month={2},
        keywords={wood plastic composite surface roughness machining cutting speed},
        doi={10.4108/eai.14-2-2017.152157}
    }
    
  • J. Zajac
    F. Botko
    S. Radchenko
    P. Radic
    A. Bernat
    J. Roman
    B. Zajac
    Year: 2017
    Evaluation of selected surface integrity parameters after machining of composite materials with natural reinforcement
    SMARTCITY360
    EAI
    DOI: 10.4108/eai.14-2-2017.152157
J. Zajac1,*, F. Botko1, S. Radchenko1, P. Radic1, A. Bernat1, J. Roman1, B. Zajac1
  • 1: Faculty of Manufacturing Technologies with a seat in Prešov, Bayerova 1, Prešov, Slovak Republic
*Contact email: jozef.zajac@tuke.sk

Abstract

Presented article is focused on machining of composite materials with natural reinforcement and evaluation of selected surface integrity parameters. Wood plastic composite or wood filed plastics, ensure high resistance to rot, due to mixture of plastic material with organic wood fibers. Main issue for machining of wood plastic composite is low specific weight and excellent ratio between density and rigidity. Experimental part is aimed to machining wood plastic composite and subsequently evaluation of machined surface quality which is dependent to parameters of machining.