Table of Contents
| Preface | |
| B. Raniecki | 309 - 309 |
| An analysis of the evaluation of the fracture energy using the DCB-specimen | |
| A. Biel, U. Stigh | 311 - 327 |
| Cellular automata in damage mechanics: creep rupture case | |
| M. Chrzanowski, K. Nowak | 329 - 339 |
| Theory of residual stresses with application to an arterial geometry | |
| A. Klarbring, T. Olsson, J. Stalhand | 341 - 364 |
| Effect of aggregate structure on fracture process in concrete using 2D lattice model | |
| J. Kozicki, J. Tejchman | 365 - 384 |
| Fast multipole boundary element method for the analysis of plates with many holes | |
| J. Ptaszny, P. Fedeliński | 385 - 401 |
| A multi-scale “morphological approach” for highly-filled particulate composites: evaluation in hyperelasticity and first application to viscohyperelasticity | |
| M. Touboul, C. Nadot-Martin, A. Dragon, A. Fanget | 403 - 433 |
| Modelling of carbon diffusion and ferritic phase transformations in an unalloyed hypoeutectoid steel | |
| M. Wolff, C. Acht, M. Böhm, S. Meier | 435 - 466 |