| bibtype |
C -
Conference Paper (international conference)
|
| ARLID |
0507081 |
| utime |
20240103222340.3 |
| mtime |
20190731235959.9 |
| WOS |
000433365100005 |
| DOI |
10.14311/APP.2017.13.0029 |
| title
(primary) (eng) |
SYNTHESIZED ENRICHMENT FUNCTIONS FOR EXTENDED FINITE ELEMENT ANALYSES WITH FULLY RESOLVED MICROSTRUCTURE |
| specification |
| page_count |
6 s. |
| media_type |
E |
|
| serial |
| ARLID |
cav_un_epca*0507099 |
| ISBN |
978-80-01-06346-0 |
| ISSN |
NMM 2017 - Nano & Macro Mechanics 2017 |
| title
|
NMM 2017 - Nano & Macro Mechanics 2017 |
| page_num |
29-34 |
| publisher |
| place |
Prague |
| name |
Department of Mechanics, Faculty of Civil Engineering, Czech Technical University in Prague |
| year |
2017 |
|
|
| keyword |
Wang tiling |
| keyword |
microstructure synthesis |
| keyword |
microstructure-informed enrichment functions |
| keyword |
extended finite element method |
| author
(primary) |
| ARLID |
cav_un_auth*0377780 |
| share |
33 |
| name1 |
Doskar |
| name2 |
M. |
| country |
CZ |
| garant |
K |
|
| author
|
| ARLID |
cav_un_auth*0022360 |
| share |
33 |
| name1 |
Novák |
| name2 |
J. |
| country |
CZ |
|
| author
|
| ARLID |
cav_un_auth*0357917 |
| name1 |
Zeman |
| name2 |
Jan |
| institution |
UTIA-B |
| full_dept (cz) |
Matematická teorie rozhodování |
| full_dept |
Department of Decision Making Theory |
| department (cz) |
MTR |
| department |
MTR |
| fullinstit |
Ústav teorie informace a automatizace AV ČR, v. v. i. |
|
| source |
|
| cas_special |
| abstract
(eng) |
Inspired by the first order numerical homogenization, we present a method for extracting continuous fluctuation fields from the Wang tile based compression of a material microstructure. The fluctuation fields are then used as enrichment basis in Extended Finite Element Method (XFEM) to reduce number of unknowns in problems with fully resolved microstructural geometry synthesized by means of the tiling concept. In addition, the XFEM basis functions are taken as reduced modes of a detailed discretization in order to circumvent the need for non-standard numerical quadratures. The methodology is illustrated with a scalar steady-state problem. |
| action |
| ARLID |
cav_un_auth*0377799 |
| name |
Nano & Macro Mechanics 2017 /8./ |
| dates |
20170917 |
| mrcbC20-s |
20170917 |
| place |
Prague |
| country |
CZ |
|
| RIV |
BA |
| FORD0 |
10000 |
| FORD1 |
10100 |
| FORD2 |
10103 |
| reportyear |
2020 |
| result_subspec |
WOS |
| num_of_auth |
3 |
| inst_support |
RVO:67985556 |
| permalink |
http://hdl.handle.net/11104/0298167 |
| confidential |
S |
| mrcbC86 |
3+4 Proceedings Paper Engineering Civil|Nanoscience Nanotechnology|Mechanics |
| mrcbC86 |
3+4 Proceedings Paper Engineering Civil|Nanoscience Nanotechnology|Mechanics |
| mrcbC86 |
3+4 Proceedings Paper Engineering Civil|Nanoscience Nanotechnology|Mechanics |
| arlyear |
2017 |
| mrcbU14 |
SCOPUS |
| mrcbU24 |
PUBMED |
| mrcbU34 |
000433365100005 WOS |
| mrcbU63 |
cav_un_epca*0507099 NMM 2017 - Nano & Macro Mechanics 2017 978-80-01-06346-0 2336-5382 29 34 Prague Department of Mechanics, Faculty of Civil Engineering, Czech Technical University in Prague 2017 Acta Polytechnica CTU Proceedings 13 (2017) |
|