Detail publikace
Sensitivity Analysis of the State of Stress in the Crack-Prone Areas of Breathing Webs
KALA, Z. KALA, J. ŠKALOUD, M. TEPLÝ, B.
Originální název
Sensitivity Analysis of the State of Stress in the Crack-Prone Areas of Breathing Webs
Anglický název
Sensitivity Analysis of the State of Stress in the Crack-Prone Areas of Breathing Webs
Jazyk
en
Originální abstrakt
The study is divided into two parts: (i) in the first one, the plate girder is considered to be exposed to quasi-constant loading (i.e. to loads which are either constant or repeated in a very small number of cycles), while (ii) in the other one, the girder is assumed to be subjected to many times repeated loading. The theoretical analysis was based on a non linear variant of the finite element method, the girder being modeled by means of shell elements and the ANSYS program being applied. All input imperfections were considered to be random quantities. The statistical distributions was introduced according to both experimentally obtained results and data given in literature.
Anglický abstrakt
The study is divided into two parts: (i) in the first one, the plate girder is considered to be exposed to quasi-constant loading (i.e. to loads which are either constant or repeated in a very small number of cycles), while (ii) in the other one, the girder is assumed to be subjected to many times repeated loading. The theoretical analysis was based on a non linear variant of the finite element method, the girder being modeled by means of shell elements and the ANSYS program being applied. All input imperfections were considered to be random quantities. The statistical distributions was introduced according to both experimentally obtained results and data given in literature.
Dokumenty
BibTex
@inproceedings{BUT21016,
author="Zdeněk {Kala} and Jiří {Kala} and Miroslav {Škaloud} and Břetislav {Teplý}",
title="Sensitivity Analysis of the State of Stress in the Crack-Prone Areas of Breathing Webs",
annote="The study is divided into two parts: (i) in the first one, the plate girder is considered to be exposed to quasi-constant loading (i.e. to loads which are either constant or repeated in a very small number of cycles), while (ii) in the other one, the girder is assumed to be subjected to many times repeated loading. The theoretical analysis was based on a non linear variant of the finite element method, the girder being modeled by means of shell elements and the ANSYS program being applied. All input imperfections were considered to be random quantities. The statistical distributions was introduced according to both experimentally obtained results and data given in literature.",
address="Wydawnicto naukowe",
booktitle="Lightweight Structures in Civil Engineering",
chapter="21016",
institution="Wydawnicto naukowe",
year="2005",
month="september",
pages="219--228",
publisher="Wydawnicto naukowe",
type="conference paper"
}