Abstract
This paper presents the results of comparative experimental tests of proper active powers and maximum temperatures, conducted on the circumference grinding of flat surfaces, made of grade 321 corrosion-resistant steel (1.4541), using modern aluminium oxynitride and noble electrocorundum vitrified-bonded grinding wheels. The tests were carried out in both up-cut and down-cut conditions. In both kinematic grinding aspects, the tested factors were determined by discrete increase of reductive grinding yield, applying increasing grinding-wheel in-feed to the workpiece and keeping the remaining grinding parameters at the constant level. The test results were later subjected to simplified statistical analysis, and an attempt was made at substantive test justification. It was demonstrated that, regardless of the assumed kinematic grinding aspects of steel grade 1.4541 (321), the values of all the comparatively tested values of aluminium oxynitride grinding wheels were, with increasing reductive grinding yield, lower than the corresponding values of the noble electrocorundum grinding wheels.
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References
Rappold-Winterthur Schulungsmaterialen (2013) Schleifscheibe von 55A und Schleifscheibe NanoWin®
Klocke F (2009) Manufacturing processes 2: grinding, honing, lapping. Springer Verlag, Berlin
Nadolny K (2012) Nowa generacja ziaren ściernych z azotkutlenku glinu, zwiększająca efektywność szlifowania, vol 8-9. Mechanik, Agencja Wydawnicza SIMP, Warszawa, pp 670–677
Roquefeuil F (2003) Abral. A new approach to precision grinding. Grinding and Abrasives Magazine. . Abrasives Magazine Inc, USA
Weinert K, Mohn T, Jansen T, Paffrath LU (2007) Abral-Schneidkorn steigert Effizienz beim Schleifen von Duplexstahl. Maschinenmarkt 113(11):28–31
Nadolny K, Sułowski P, Herman D (2012) Badania właściwości mechanicznych nowej generacji ziaren ściernych z azotku-tlenku glinu ALON z zastosowaniem sygnału emisji akustycznej, vol 8-9. Mechanik, Agencja Wydawnicza SIMP, Warszawa, pp 683–684
Graf W (2010) Handbook creep-feed and surface grinding. Wintherthur Technology Group Matteribach, Zurich
Webster J, Tricard M (2004) Innovations in abrasive products for precision grinding. Annals of the CIRP 53(2):597–617
Jackson MJ, Davim JP (2010) Machining with abrasives, 2014th edn. Springer, New York
Polański Z (1997) Planowanie Doświadczeń w Technice. PWN, Warszawa
Davies MA, Cao Q, Coke AI, Ivester R (2003) On the measurement and prediction of temperature fields in machining steel. Annals of the CIRP 52(1):77–80
Zorew NN, Kufarew GL, Goldschmidt MG (1967) Spannungszustand in der Schnitzone. Annals of the CIRP 14:337–346
Nadolny K, Sułkowski P, Herman D (2015) Analysis of aluminium oxynitride ALON (Abral®) abrasive grains during the brittle fracture process using stress-wave emission techniques. Int J Adv Manuf Technol 81:1961–1976
Dobrzański L (2002) Podstawy nauki o materiałach i metaloznawstwo. Wydawnictwo Naukowo-Techniczne, Warszawa, p 637
Letner H (1995) Analysis of grinding quantities through chip sizes. J Mater Process Tech 95:1–7
Tso PL (1995) An investigation of chip types in grinding. J Mater Process Tech 53:521–532
Rowe WB (2009) Principles of modern grinding technology. William Andrew, Burlington
Woźniak K (1992) Materiały ścierne—wytwarzanie i własności. Wydawnictwo Naukowo-Techniczne, Warszawa, pp 97–239
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Niżankowski, C., Struzikiewicz, G. Comparative tests of the proper active grinding powers and maximum grinding temperatures, conducted on corrosion-resistant steel surfaces, using aluminium oxynitride and noble electrocorundum grinding wheels. Int J Adv Manuf Technol 89, 273–282 (2017). https://doi.org/10.1007/s00170-016-9084-4
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DOI: https://doi.org/10.1007/s00170-016-9084-4