TitleApplication of Numerical and Physical Simulation to Design of the Best Manufacturing Technology for Fasteners
Journal titleArchives of Metallurgy and Materials
NumerNo 1 March
Divisions of PASNauki Techniczne
PublisherInstitute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences
Date2015[2015.01.01 AD - 2015.12.31 AD]
ReferencesPereira (2001), Flexibility in manufacturing systems : a relational and a dynamic approach of Oper - ational Research, European Journal, 130. ; Bariani (2006), Physical simulation of longitudinal welding in porthole - die extrusion, CIRP Annals Manufacturing Technology, 55, 287, doi.org/10.1016/S0007-8506(07)60418-1 ; Bonte (2008), van den Boogaard An opti - misation strategy for industrial metal forming processes Struc - tural and Multidisciplinary, Optimization, 35, 571. ; Ghiotti (2011), Damage modelling in cold forging process chains Spec ed th ICTP Aachen, Steel Research International, 10, 919. ; Kuś (2014), Idea of the optimization strategy for in - dustrial processes in Materials, Computer Methods Science, 14, 13. ; Park (2007), Process analysis of mul - tistage forging by using finite element method of Materials Processing, Journal Technology, 187. ; Kuziak (2011), kyy Bainitic steels as alternative for conventional carbon - man - ganese steels in manufacturing of fasteners - simulation of production chain in Materials, Computer Methods Science, 11, 443. ; Rauch (2014), From high accuracy to high efficiency in simulations of processing of Dual - Phase steels Metallurgical and Materials, Transactions, 497. ; Pietrzyk (2008), Tool for optimal design of manufacturing chain based on metal forming, CIRP Annals Manufacturing Technology, 57, 309, doi.org/10.1016/j.cirp.2008.03.099 ; Behrens (2000), Prediction of cracks in mul - tistage cold forging operations by finite - element simulations with integrated damage criteria Metal publ Kraków, Proc Forming, 245. ; Skóra (2012), Computer aided design of manufacturing of fasteners - selection of the best production chain, Key Engineering Materials, 504. ; Skóra (2013), Numerical simulation of tool wear as support of optimization of manufacturing chain for fasteners in Materials, Computer Methods Science, 13, 68. ; Gronostajski (2014), ki A review of the degradation mechanisms of the hot forging tools of Civil and Mechanical, Archives Engineering, 14, 528. ; Hon (2007), Impact of product life cycle on manufacturing systems reconfiguration Annals of the, CIRP, 56, 455, doi.org/10.1016/j.cirp.2007.05.109 ; McCormack (2002), finite element analy - sis of a three stage forging sequence of Materials Processing, Journal Technology, 127, 48. ; Sellars (1979), Physical metallurgy of hot working in : Hot working and forming processes eds The Metals London, Soc, 3.