Přístupnostní navigace
E-přihláška
Vyhledávání Vyhledat Zavřít
Detail publikace
ZLÁMAL, B. JAN, V.
Originální název
Computer Simulation of Heat-Resistant Steels Welds
Typ
článek ve sborníku ve WoS nebo Scopus
Jazyk
angličtina
Originální abstrakt
Structural stability is one of the substantial characteristics of materials that are used for long-term operation at elevated temperatures. It can be inferred from a comparison of an actual structural state with the equilibrium state. In the case of heat-resistant steels, the equilibrium state of their structure can be established via calculation using the CALPHAD method and a corresponding database, e.g. the Steel 13 database. Structural stability of heterogeneous weld joints can additionally be affected by redistribution, the redistribution of interstices in the first place. The Thermo-Calc and DICTRA program files provide for determining both the chemical composition profile across the weld joint and the phase composition profile. Knowing the evolution with time of the two above profiles enables judging the residual service life of weld joints and of whole structures and facilities. The paper gives the results of an experimental study (chemical composition profiles -of carbon in particular - established by the WDS method, and results of structural analyses in decarburized and carburized areas) of laboratory weld joints of the 6CrMoV 8-3-2 and X12CrMoVNb 10-1 steels annealed in a temperature interval from 500 to 900 C. A pronounced up-hill diffusion of carbon and the related decarburization of the 6CrMoV 8-3-2 steel and, conversely, the carburization of the X12CrMoVNb 10-1 steel have been confirmed also by calculation, which is in qualitative agreement with the structural changes observed.
Klíčová slova
DICTRA, structural stability, simulation, phase profile
Autoři
ZLÁMAL, B.; JAN, V.
Vydáno
6. 9. 2004
Nakladatel
DGM
Místo
Lausanne, Switzerland
Strany od
16
Strany do
19
Strany počet
4
BibTex
@inproceedings{BUT18013, author="Bronislav {Zlámal} and Vít {Jan}", title="Computer Simulation of Heat-Resistant Steels Welds", booktitle="JUNIOR EUROMAT 2004", year="2004", series="2004", number="7", pages="4", publisher="DGM", address="Lausanne, Switzerland" }