bibtype	J - Journal Article
ARLID	0041869
utime	20240103182815.1
mtime	20061012235959.9
title (primary) (eng)	Mesoscopic model of microstructure evolution in shape memory alloys, its numerical analysis and computer implementation
specification	page_count 23 s.
serial	title GAMM Mitteilungen volume_id 29 volume 1 (2006) page_num 192-214
title (cze)	Mesoscopický model evoluce mikrostruktury v materiálech s tvarovou pamětí, její numerická analýya a implementace
keyword	Martensitic transformation
keyword	twinning
keyword	rate-independent dissipation
keyword	NiMnGa
author (primary)	ARLID cav_un_auth*0101187 name1 Roubíček name2 Tomáš institution UTIA-B full_dept Department of Decision Making Theory fullinstit Ústav teorie informace a automatizace AV ČR, v. v. i.
author	ARLID cav_un_auth*0101142 name1 Kružík name2 Martin institution UTIA-B full_dept Department of Decision Making Theory fullinstit Ústav teorie informace a automatizace AV ČR, v. v. i.
COSATI	12A
cas_special	project project_id GA201/03/0934 agency GA ČR ARLID cav_un_auth*0005759 project project_id IAA1075402 agency GA AV ČR ARLID cav_un_auth*0012788 research CEZ:AV0Z10750506 abstract (eng) This contribution presents a mesoscopic model of evolution of microstructure in alloys exhibiting shape-memory effects. Main features are a multi-well stored energy at large strains and rate-independent dissipation potential acting on volume fractions involved in the mesoscopic description of microstructure by Young measures. The focus is on analysis of an approximation scheme as well as on numerical simulations of single-crystal experiments with specific alloys. abstract (cze) V příspěvku prezentujeme mesoskopický model evoluce mikrostruktury v materiálech s tvarovou pamětí. Používáme vícejámovou energetickou hustotu a rychlostně-nezávislou disipaci. Numerické přiklady jsou počítany pro NiMnGa. reportyear 2007 RIV BA permalink http://hdl.handle.net/11104/0135221 arlyear 2006 mrcbU63 GAMM Mitteilungen Roč. 29 č. 1 2006 192 214