Podrobnosti záznamu

Název
    Proposition of a Solution for the Setting of the Abrasive Waterjet Cutting Technology
Autor
    Grznárik, R.
    Harničárová, M.
    Kušnerová, M.
    Valíček, Jan
    Zavadil, J.
Jazyk
    anglicky
Typ dokumentu
    článek v odborném periodiku
Zdrojový dokument - seriál
    Measurement Science Review
Svazek/č.
    Roč. 13, č. 5
Strany
    s. 279-285
Rok
    2013
Poznámky
    Autoři celkem: 5
    Projekt: ED2.1.00/03.0082, GA MŠk3cav_un_auth*0280791
    Rozsah: 7 s. : E
Předmětová kategorie
    abrasive waterjet cutting of materials
    correlation relations
    optimization of technology
    surface roughness
    surface topography function
Klíčové slovo
    Abrasive
    Cutting
    Proposition
    Setting
    Solution
    Technology
    Waterjet
Abstrakt (anglicky)
   The submitted paper aims to clarify the abrasive waterjet technology, particularly from the point of view of produced surface topography. It provides a new insight into the deformation process caused by the effect of abrasive waterjet and into the possibilities of using the surface topography for solving the issues of optimization of the process. The subject of study is a system of cutting tool, material and final surface topography and optimization of their parameters. The cutting or disintegrating tool of abrasive waterjet technology is flexible. The trajectory of its cut traces is strictly determined here by disintegration resistance at critical moments of tool-material interaction. The physico-mechanical character of the interaction within the cut will manifest itself in the final surface condition.
   This process can be re-analysed by measuring the selected elements of topography and roughness on the final surface, namely depending on the depth of the cut, technological parameters of the tool and mechanical parameters of the material. The mentioned principle is the basis of the presented solution.
Přispěvatel
    AV ČR Brno, Ústav geoniky
Kód přispěvatele
    AV ČR, ÚG
Zdrojový formát
    U
Datum importu
    24. 10. 2014