SOPOUŠEK, Jiří a Rudolf FORET. CARBON AND NITROGEN REDISTRIBUTION IN WELD JOINTS OF HEAT RESISTANT STEELS. In 1-st International Conference Super-High Strenght Steels. Roma: Associazione Italiana di Metallurgia, 2005, s. 60/1-9, 9 s. ISBN 88-85298-56-7.
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Základní údaje
Originální název CARBON AND NITROGEN REDISTRIBUTION IN WELD JOINTS OF HEAT RESISTANT STEELS
Název česky Přerozdělení uhlíku a dusíku ve svarových spojích žárovzdorných ocelí
Název anglicky CARBON AND NITROGEN REDISTRIBUTION IN WELD JOINTS OF HEAT RESISTANT STEELS
Autoři SOPOUŠEK, Jiří (203 Česká republika, garant) a Rudolf FORET (203 Česká republika).
Vydání Roma, 1-st International Conference Super-High Strenght Steels, od s. 60/1-9, 9 s. 2005.
Nakladatel Associazione Italiana di Metallurgia
Další údaje
Originální jazyk čeština
Typ výsledku Stať ve sborníku
Obor 10403 Physical chemistry
Stát vydavatele Itálie
Utajení není předmětem státního či obchodního tajemství
Kód RIV RIV/00216224:14310/05:00012734
Organizační jednotka Přírodovědecká fakulta
ISBN 88-85298-56-7
Klíčová slova anglicky weldment;phase;DICTRA;CALPHAD;P91;carbonitride
Štítky CALPHAD, carbonitride, DICTRA, P91, phase, weldment
Změnil Změnil: prof. RNDr. Jiří Sopoušek, CSc., učo 2405. Změněno: 27. 1. 2006 16:07.
Anotace
The present contribution deals with the theoretical modelling of the kinetics of the development of chemical composition and phase profiles of heterogeneous laboratory weld joints of heat resistant steels from the point of view of their long-term stability. The T25 ( 6 CrMoV 8-3-2) heat-resistant ferritic steel currently being developed and the advanced P91 (X10CrMoVNb 10-1) chromium steel, both steels after ion nitriding, homogenisation at 1050şC and weld joining were the subject of study. The basic compositions of materials were approximated as the Fe-Cr-Ni-Mo-V-C-N system. The long-term annealing of the T25+0.1129wt%N | P91+(0.8-0.064wt)N weld joints were simulated at 600şC and 900şC. The simulated results were compared with experimental carbon profile observations. The phase diagrams of the investigated materials were calculated using the CALPHAD approach [1] and applying the STEEL thermodynamic database [2]. The activities of carbon, nitrogen, and other elements were calculated by the same method. The CALPHAD approach complemented with an appropriate diffusion model [3] given in the DICTRA code enabled simulating the phase and element profile evolutions inside the diffusion-affected zone of weld joint. The DIF kinetic database [4] was used to describe the diffusion. In the simulation the coexistence of different phases (carbides, carbonitrides,) was assumed.
Anotace anglicky
The present contribution deals with the theoretical modelling of the kinetics of the development of chemical composition and phase profiles of heterogeneous laboratory weld joints of heat resistant steels from the point of view of their long-term stability. The T25 ( 6 CrMoV 8-3-2) heat-resistant ferritic steel currently being developed and the advanced P91 (X10CrMoVNb 10-1) chromium steel, both steels after ion nitriding, homogenisation at 1050şC and weld joining were the subject of study. The basic compositions of materials were approximated as the Fe-Cr-Ni-Mo-V-C-N system. The long-term annealing of the T25+0.1129wt%N | P91+(0.8-0.064wt)N weld joints were simulated at 600şC and 900şC. The simulated results were compared with experimental carbon profile observations. The phase diagrams of the investigated materials were calculated using the CALPHAD approach [1] and applying the STEEL thermodynamic database [2]. The activities of carbon, nitrogen, and other elements were calculated by the same method. The CALPHAD approach complemented with an appropriate diffusion model [3] given in the DICTRA code enabled simulating the phase and element profile evolutions inside the diffusion-affected zone of weld joint. The DIF kinetic database [4] was used to describe the diffusion. In the simulation the coexistence of different phases (carbides, carbonitrides,) was assumed.
Návaznosti
GA106/03/0636, projekt VaVNázev: Teoretické modelování a experimentální studium strukturní stability moderních žárupevných ocelí a jejich svarů
MSM0021622410, záměrNázev: Fyzikální a chemické vlastnosti pokročilých materiálů a struktur
Investor: Ministerstvo školství, mládeže a tělovýchovy ČR, Fyzikální a chemické vlastnosti pokročilých materiálů a struktur
VytisknoutZobrazeno: 27. 8. 2024 17:25