ACTIVITIES OF INTERSTITIAL ELEMENTS INSIDE HEAT –RESISTANT STEELS, FILLER ALLOYS, AND WELDING ELECTRODE MATERIALS

SOPOUŠEK, Jiří and Zdeněk HODIS. ACTIVITIES OF INTERSTITIAL ELEMENTS INSIDE HEAT –RESISTANT STEELS, FILLER ALLOYS, AND WELDING ELECTRODE MATERIALS. In E-MRS 2006 Fall Meeting. Polsko: Warshaw University of Technology, 2006, p. 207-208. ISBN 83-89585-12-X.

Basic information

Original name

ACTIVITIES OF INTERSTITIAL ELEMENTS INSIDE HEAT –RESISTANT STEELS, FILLER ALLOYS, AND WELDING ELECTRODE MATERIALS

Name in Czech

Aktivita intersticiálních prvků v žáropevných ocelích, elektrodách a přídavných kovech

Authors

SOPOUŠEK, Jiří (203 Czech Republic, guarantor) and Zdeněk HODIS (203 Czech Republic)

Edition

Polsko, E-MRS 2006 Fall Meeting, p. 207-208, 2006

Publisher

Warshaw University of Technology

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Other information

Language

English

Type of outcome

Stať ve sborníku

Field of Study

10403 Physical chemistry

Country of publisher

Poland

Confidentiality degree

není předmětem státního či obchodního tajemství

RIV identification code

RIV/00216224:14310/06:00017148

Organization unit

Faculty of Science

ISBN

83-89585-12-X

Keywords in English

DICTRA;ThernoCalc;phase;diffusion;CALPHAD

Tags

CALPHAD, DICTRA, Diffusion, phase, ThernoCalc

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Abstract

V originále

The iron-based materials are the most popular engineering alloys for industrial use. Very successful materials are the steels. The element bases of the modern steels are very complex. They are usually alloyed with the other transitions metals (Me: Cr, Mo, V, Nb, W,...) and interstitial elements (i.e. carbon and also recently nitrogen) in order to improve the mechanical and corrosion resistance properties. The steels are very important material also for high temperature engineering applications. The modern high-resistant steels (P91, P92, E911, VM12) [05Van] reached the high strength up to 100Mpa at 575-650oC. It is no rare case that these modern steels have to be weld joined with other steels, which have different compositions (T/P22, T/P23, T/P24,...). In the case of dissimilar weld joints [04Bha], the mechanical properties usually take a turn for the worse because the phase microstructure changes caused by long-time diffusion during exploitation at high temperature [01Sir]. The most important diffusing elements are the carbon and the nitrogen for the steels. The diffusion flux of these light elements (i.e. C, N) is in close relation to their thermodynamic activities. The heat-resistant steels, filler alloys, and welding electrodes can be thermodynamically treated as Fe-Me-N-C based closed systems. Phase diagrams and temperature dependent carbon and nitrogen activities of the steels can be calculated using CALPHAD approach [98Sau], which is based on semiempirical thermodynamic model of the multicomponent/multiphase system and thermodynamic condition of phase equilibrium. The activities of the carbon and nitrogen can be thus obtained. In this contribution, the CALPHAD method is applied for different steels, fillers, and electrodes. Examples of phase diagrams, temperature dependences of the carbon and nitrogen activities are calculated, plotted, and discussed.

In Czech

Aktivita intersticiálních prvků (uhlíku a dusíku)v žáropevných ocelích, elektrodách a přídavných kovech

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Links

MSM0021622410, plan (intention)

Name: Fyzikální a chemické vlastnosti pokročilých materiálů a struktur Investor: Ministry of Education, Youth and Sports of the CR, Physical and chemical properties of advanced materials and structures