Robust Multiscale Modelling Of Two-Phase Steels On Heterogeneous Hardware Infrastructures By Using Statistically Similar Representative Volume Element
Divisions of PAS
Rauch (2007), Data filtering using dynamic particles method Computer Assisted Mechanics and, Engineering Sciences, 14, 353. ; Brands (2011), On the incorporation of microstructural information in dual phase steel simulations th eds Aachen, Proc, 10, 823. ; Rauch (2013), From high accuracy to high efficiency in simulations of processing of dual phase steels Metallurgical and Materials in press, Transactions. ; Debinski (2014), Web system dedicated to parallel computation for modelling of mushy steel deformation of and, Archives Metallurgy Materials, 59, 865, doi.org/10.2478/amm-2014-0146 ; Rauch (2010), Application of the automatic image processing in modelling of the deformation mechanisms based on the digital representation of microstructure for, International Journal Multiscale Computational Engineering, 8, 1, doi.org/10.1615/IntJMultCompEng.v8.i3.90 ; Brands (2011), Statistically similar reconstruction of dual - phase steel microstructures for engineering applications in Mechanics CD ROM, Computer Methods. ; Rauch (2011), On application of shape coefficients to creation of the statistically similar representative element of DP steels in, Computer Methods Materials Science, 11, 531. ; Krol (2013), and Massively scalable platform for data farming supporting heterogeneous infrastructure in IARIA Cloud, Computing, 144. ; Schroeder (2011), Approximation of random microstructures by periodic statistically similar representative volume elements based on lineal - path functions of, Archives Applied Mechanics, 81, 975, doi.org/10.1007/s00419-010-0462-3 ; Madej (2008), Concurrent and upscaling methods in multi scale modelling case studies in, Computer Methods Materials Science, 8, 1. ; Allix (2006), Multiscale strategy for solving industrial problems, Appl Sci, 6, 107. ; Hofmann (2009), Advanced Cold Rolled Steels for Automotive Applications, steel research international, 80, 22. ; Matlock (2005), New microalloyed steel applications for the automotive sector, Materials Science Forum, 500.