Abstract
This paper presents the effects of modeling the stress in the burnished layer of a complex spatial surface that was previously milled. A spatial kinematic-geometric model of the surface structure after milling is used. This paper presents the results of a numerical experiment on the synergic influence of the technological milling and burnishing parameters responsible for the final state of the geometric structure of a surface on the post-machining stress in the surface layer. The stress in the surface layer plays an important role because it is frequently responsible for the development of cracks, corrosion, and cavitation (in the surface area of injection aluminum molds, press tools, and core cutters). A proper understanding of the mechanisms responsible for the origin and development of residual stress will be conducive to the improvement of functional properties and longer tool life.
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References
El-Khabeery MM, El-Axir MH (2001) Experimental techniques for studying the effects of milling roller-burnishing parameters on surface integrity. Int J Mach Tools Manuf 41:1705–1719
Grochała D (2011) Nagniatanie narzędziami hyrostatycznymi powierzchni przestrzennych złożonych na frezarkach CNC, Dissertation, West Pomeranian University of Technology Szczecin http://zbc.ksiaznica.szczecin.pl/Content/24025/Praca+dokt+D.+Grocha%C5%82a.pdf
Korzynski M, Lubas J, Swirad S, Dudek K (2011) Surface layer characteristics due to slide diamond burnishing with a cylindrical-ended tool. J Mater Process Technol 211:84–94
Lopez de Lacalle LN, Lamikiz A, Munoa J, Sanchez JA (2005) Quality improvement of ball-end milled sculptured surfaces by ball burnishing. Int J Mach Tools Manuf 45:1659–1668
Lopez de Lacalle LN, Lamikiz A, Sanchez JA, Arana JL (2007) The effect of ball burnishing on heat-treated steel and inconel 718 milled surfaces. Int J Adv Manuf Technol 32:958–968
Rodríguez A, López de Lacalle LN, Celaya A, Lamikiz A, Albizuri J (2012) Surface improvement of shafts by the deep ball-burnishing technique. Surf Coat Technol 206:2817–2824
Shiou FJ, Chen CH (2003) Determination of optimal ball-burnishing parameters for plastic injection moulding steel. Int J Adv Manuf Technol 3:177–185
Shiou FJ, Chen CH (2008) Ultra-precision surface finish of NAK80 mould tool steel using sequential ball burnishing and ball polishing processes. J Mater Process Technol 201:554–559
Shiou FJ, Chuang CH (2010) Precision surface finish of the mold steel PDS5 using an innovative ball burnishing tool embedded with a load cell, Precis. Engineering 34:76–84
Stalin JMR, Vinayagam BK (2011) Optimization of ball burnishing process on tool steel (t215cr12) in CNC machining centre using response surface methodology. Arab J Sci Eng 36:1407–1422
Benardos PG, Vosniakos G-C (2003) Predicting surface roughness in machining a review. Int J Mach Tools Manuf 43:833–844
Balland P, Tabourot L, Degre F, Moreau V (2013) Mechanics of the burnishing process, Precis. Engineering 37:129–134
Bougharriou A, Saï WB, Saï K (2010) Prediction of surface characteristics obtained by burnishing. Int J Adv Manuf Technol 51:205–215
Sartkulvanich P (2007) Determination of material properties for use in FEM simulations of machining and roller burnishing: dissertation The Ohio State University
Deng WJ, Xia W, Zhou ZY, Chen WP, Li YY (2004) Finite element analysis of effects of ball burnishing parameters on residual stresses. Mater Sci Forum 471–472:658–662
Product catalogue of ECOROLL, Werkzeugtechnologie fuer die Oberflächenveredelung, E-Publishing http://www.ecoroll.de/
Senczyk D (2005) Podstawy tensometrii rentgenowskiej, Wydawnictwo Politechniki Poznańskiej ISBN 83-7143234-7
Zienkiewicz OC, Taylor RL, Zhu JZ (2005) Finite element method its basis & fundamentals, 6th edn. Elsevier, Butterworth-Heinemann. ISBN-13:9780750663205
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Grochała, D., Berczyński, S. & Grządziel, Z. Stress in the surface layer of objects burnished after milling. Int J Adv Manuf Technol 72, 1655–1663 (2014). https://doi.org/10.1007/s00170-014-5775-x
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DOI: https://doi.org/10.1007/s00170-014-5775-x