Читать книгу Multiscale Modelling and Optimisation of Materials and Structures - Tadeusz Burczynski - Страница 17

1 1 Allix, O. (2006). Multiscale strategy for solving industrial problems. In: III European Conference on Computational Mechanics (ed. C.A. Motasoares, J.A.C. Martins, H.C. Rodrigues, et al.), 107–126. Dordrecht: Springer.

2 2 De Borst, R. (2008). Challenges in computational materials science, multiple scales, multi‐physics and evolving discontinuities. Computational Material Science 43: 1–15.

3 3 Feyel, F. (1999). Multiscale FE2 elastoviscoplastic analysis of composite structures. Computational Materials Science 16: 344–354.

4 4 Fish, J. (2014). Practical Multiscaling. Wiley.

5 5 Horstemeyer, M.F. and Wang, P. (2003). Cradle‐to‐grave simulation‐based design incorporating multiscale microstructure‐property modeling: reinvigorating design with science. Journal of Computer‐Aided Materials Design 10: 13–34.

6 6 Kilner, J.A., Skinner, S.J., Irvine, S.J.C., and Edwards, P.P. (ed.) (2012). Functional Materials for Sustainable Energy Applications. Oxford, Cambridge, Philadelphia, New Delhi: Woodhead Publishing Ltd.

7 7 Madej, L., Wang, J., Perzynski, K., and Hodgson, P.D. (2014). Numerical modeling of dual phase microstructure behavior under deformation conditions on the basis of digital material representation. Computational Materials Science 95: 651–662.

8 8 Matlock, D.K., Krauss, G., and Speer, J.G. (2005). New microalloyed steel applications for the automotive sector. Materials Science Forum 500–501: 87–96.

9 9 Milenin, A. and Kopernik, M. (2011). Microscale analysis of strain‐stress state for TiN nanocoating of POLVAD and POLVAD_EXT. Acta of Bioengineering and Biomechanics 13: 11–19.

10 10 Muszka, K., Lopez‐Pedrosa, M., Raszka, K. et al. (2014). The impact of strain reversal on microstructure evolution and orientation relationships in Ti‐6Al‐4V with an initial alpha colony microstructure. Metallurgical and Materials Transactions A 45: 5997–6007.

11 11 Niinomi, M. (2002). Recent metallic materials for biomedical applications. Metallurgical and Materials Transactions A 33: 477–486.

12 12 Pavliotis, G. and Stuart, A. (2008). Multiscale Methods: Averaging and Homogenisation. Springer.

13 13 Weinan, E. (2011). Principles of Multiscale Modeling. Cambridge University Press.

14 14 Yanagimoto, Y., Banabic, D., Banu, M., and Madej, L. (2022). Simulation of Metal Forming – Visualization of Invisible Phenomena in the Digital Era. CIRP Annals Manufacturing Technology in press.

15 15 Yip, S. (ed.) (2005). Handbook of Materials Modeling. Dordrecht: Springer.