Detail publikace
Comparison of material models in the study of mechanical properties of the oxide scales
HRABOVSKÝ, J. LOŠÁK, P. HORSKÝ, J.
Originální název
Comparison of material models in the study of mechanical properties of the oxide scales
Typ
článek ve sborníku ve WoS nebo Scopus
Jazyk
angličtina
Originální abstrakt
Heat treatment of steel is tied to many problems. One of the important problems is the growth of the oxide scale layers and their removal in order to obtain high quality of steel surface. The problem of the oxide scales growth and descaling requires a complex analysis. Complexity of analysis also includes the study of mechanical properties of the oxide scale layers. To study the mechanical properties the small punch method was used. The typical result of the small punch tests is force-displacement curve. Small punch test can be considered analogous to a conventional tensile test. Therefore it is necessary to convert measured force-displacement curve to stress-strain curve. The conversion of the measured curves can be carried out by several methods such as analytical or numerical methods. In this paper the numerical method in ANSYS program was used to convert the measured force-displacement curves. Two material models were applied and results for all examined specimens are compared and presented.
Klíčová slova
Small Punch , oxide layer, stress-strain curve, Ramberg-Osgood model, Chaboche model, screening, genetic algorithm
Autoři
HRABOVSKÝ, J.; LOŠÁK, P.; HORSKÝ, J.
Rok RIV
2013
Vydáno
10. 9. 2013
Nakladatel
OCELOT, Lt., Ostrava, Czech Republic
Místo
Ostrava
ISBN
978-80-260-3912-9
Kniha
STEELSIM 2013
Edice
1
Strany od
21
Strany do
22
Strany počet
9
BibTex
@inproceedings{BUT103227,
author="Jozef {Hrabovský} and Petr {Lošák} and Jaroslav {Horský}",
title="Comparison of material models in the study of mechanical properties of the oxide scales",
booktitle="STEELSIM 2013",
year="2013",
series="1",
pages="21--22",
publisher="OCELOT, Lt., Ostrava, Czech Republic",
address="Ostrava",
isbn="978-80-260-3912-9"
}