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The effect of machining conditions on the forces in the process of roller brush machining

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Języki publikacji
EN
Abstrakty
EN
Because of its advantages, brushing processing has many uses. The main ones include the removal of corrosion products, surface cleaning, deburring and shaping the properties of the surface layer. The intensity of these processes depends on the degree of impact of brush fibres on the work surface. In the case of tools, in which the resilient fibres are the working elements, forces in the brushing process, apart from the machining parameters, depend on the characteristics and overall dimensions of individual fibres. The paper presents the results of studies of the influence of technological parameters and type of fibres on the radial force in the brushing process.
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autor
  • Department of Production Engineering, Mechanical Engineering Faculty, Lublin University of Technology, 36 Nadbystrzycka Street, 20-618 Lublin, Poland
Bibliografia
  • 1.Aurich J.C., Dornfeld D., Arrazola P.J., Franke V. Leitz L., Min S.: Burrs–Analysis, control and removal. CIRP Annals – Manufacturing Technology. 58, 2, 2009, 519–542.
  • 2.Fredj N.B., Nasr M.B., Rhouma A.B., Sidhom H., Braham C.: Fatigue life improvements of the AISI 304 stainless steel ground surfaces by wire brushing. J. of Materi Eng and Perform. 13, 5, 2004, 564–574.
  • 3.Gziut O., Kuczmaszewski J., Zagórski I.: The influence of technological parameters and geometric features of a cutting edge on cutting forces during AZ91HP alloy milling. Advances in Manufacturing Science and Technology. Vol. 38, nr 2, 2014.
  • 4.Kłonica M., Kuczmaszewski, J.: Determining the value of surface free energy on the basis of the contact angle. Adv. Sci. Technol. Res. J. 11, 1, 2017, 66–74.
  • 5.Kuczmaszewski J., Pieśko P.: Wear of milling cutters resulting from high silicon aluminium alloy cast AlSi21CuNi machining. Eksploatacja i Niezawodnosc. Vol. 16, no. 1, 2014.
  • 6.Kulisz M., Zagórski I., Semeniuk A.: Artificial neural network modelling of cutting force components during AZ91HP alloy milling. Applied Computer Science. 12, 4, 2016.
  • 7.Matuszak J., Zaleski K.: Dynamic Diameter Determination of Circular Brushes. Applied Mechanics and Materials. 791, 2015, 232–237.
  • 8.Matuszak J., Zaleski K.: Edge states after wire brushing of magnesium alloys. Aircraft Eng & Aerospace Tech. 86, 4, 2014, 328–335.
  • 9.Overholser R.W., Stango R.J., Fournelle R.A.: Morphology of metal surface generated by nylon/abrasive filament brush. International Journal of Machine Tools and Manufacture. 43, 2, 2003, 193–202.
  • 10.Rusinek R., Zaleski K.: Dynamics of thin-walled element milling expressed by recurrence analysis. Meccanica. 51, 6, 2016, 1275–1286.
  • 11.Stango R.J.: Filamentary brushing tools for surface finishing applications. Metal Finishing. 100, 2002, 82–91.
  • 12.Stango R.J., Heinrich S.M., Shia C.Y.: Analysis of Constrained Filament Deformation and Stiffness Properties of Brushes. J. Eng. Ind. 111, 3, 1989, 238–243.
  • 13.Zaleski K.: The effect of vibratory and rotational shot peening and wear on fatigue life of steel. Eksploatacja i Niezawodnosc – Maintenance and Reliability. 19, 1, 2016, 102–107.
  • 14.Zaleski R., Zaleski K., Gorgol M., Wiertel M.: Positron annihilation study of aluminum, titanium, and iron alloys surface after shot peening. Appl. Phys. A. 120, 2, 2015, 551–559.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-16a30278-52ee-48a4-8be7-b8ace5e533af
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