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Tytuł artykułu

Mathematical model for determining the expenditure of cooling and lubricating fluid reaching directly the grinding zone

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The purpose of this article is to discuss the method of determining the mathematical model used for calculating the amount of emulsion reaching directly the grinding zone during the hob sharpening process. Design/methodology/approach: The mathematical model, in the form of a multiple regression function, was determined based on the acceptance and rejection method. The data for the calculations was obtained by conducting numerical simulations of fluid flow in the Ansys CFX software. Findings: A mathematical model enables calculating the amount of efficient expenditure of emulsion reaching directly the zone of contact between the grinding wheel and workpiece (hob cutter rake face) at various nozzle angle settings and different nominal expenditures of emulsion. The verification of the mathematical relationship confirmed its accuracy. Research limitations/implications: Further research should focus on the other types of grinding process and other types of cooling and lubricating fluids. Practical implications: The mathematical model enables a selection and application in the workshop and industrial practice of various variants of emulsion supply during the grinding of hob cutter rake face. Analysis of the multiple regression equation created on the basis of the acceptance and rejection method also allows predicting changes in the analyzed numerical model. Originality/value: The literature review has shown that no research of this type has been conducted with regard to analyses and optimisation of the grinding process during hob cutter sharpening. The results of this research are a novelty on a worldwide scale.
Rocznik
Strony
27--34
Opis fizyczny
Bibliogr. 14 poz.
Twórcy
  • Institute of Machine Tools and Production Engineering, Lodz University of Technology, ul. Stefanowskiego 1/15, 90-924 Łódź, Poland
autor
  • Institute of Materials Science and Engineering, Lodz University of Technology, ul. Stefanowskiego 1/15, 90-924 Łódź, Poland
autor
  • Institute of Materials Science and Engineering, Lodz University of Technology, ul. Stefanowskiego 1/15, 90-924 Łódź, Poland
autor
  • Institute of Machine Tools and Production Engineering, Lodz University of Technology, ul. Stefanowskiego 1/15, 90-924 Łódź, Poland
Bibliografia
  • [1] S. Kieraś, K. Nadolny, R. Wójcik, State in the art of cooling and lubrication of the machining zone in grinding processes, Mechanic 8-9 (2015) 204-211 (in Polish).
  • [2] G. Bianco, Materials used to manufacture hobs, Available from: www.biancogianfranco.com, Access in: 25.10.2018.
  • [3] www.lmt-tools.com, Access in: 25.10.2018.
  • [4] E. Brinksmeier, C. Heinzel, M. Wittmann, Friction, cooling and lubrication in grinding, CIRP Annals - Manufacturing Technology 48/2 (1999) 581-598.
  • [5] R.A. Irani, R.J. Bauer, A. Warkentin, A review of cutting fluid application in the grinding process, International Journal of Machine Tools & Manufacture 45 (2005) 1696-1705.
  • [6] S. Malkin, C. Guo, Grinding technology: Theory & application of machining with abrasives. Second Edition, Industrial Press Inc., New York, USA, 2008.
  • [7] W.B. Rowe, Principles of modem grinding technology. Second Edition, Elsevier, 2014.
  • [8] S. Ebbrell, N.H. Woolley, Y.D. Tridimas, D.R. Allanson, W.B. Rowe, The effects of cutting fluid application method on the grinding process, International Journal of Machine Tools & Manufacture, 40 (2000) 209-223.
  • [9] W. Stachurski, J. Sawicki, R. Wójcik, K. Nadolny, Influence of application of hybrid MQL-CCA method of applying coolant during hob cutter sharpening on cutting blade surface condition, Journal of Cleaner Production 171 (2018) 892-910.
  • [10] W. Stachurski, K. Nadolny, Influence of the condition of the surface layer of a hob cutter sharpened using the MQL-CCA hybrid method of coolant provision on its operational wear, International Journal of Advanced Manufacturing Technology 98 (2018) 2185-2200.
  • [11] NORTON. SAINT-GOBAIN Catalog 2017, Available from: www.saint-gobain-abrasives.com, Access in: 25.10.2018.
  • [12] B. Kruszyński, S. Midera, J. Kaczmarek, Forces in generating gear grinding-theoretical and experimental approach, CIRP Annals - Manufacturing Technology 47 (1998)287-290.
  • [13] M. Cieciura, J. Zacharski, Probabilistic methods in practice, Vizja Press&IT, Warszawa, 2007 (in Polish).
  • [14] M. Korzyński, Methodology of the experiment - Planning, implementation and statistical analysis of the results of technological experiments, WNT, Warszawa, 2013 (in Polish).
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0e0e5f3a-34f5-4bc2-b363-428079ae41a8
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