SVOBODOVÁ, Marie a Jiří SOPOUŠEK. Experimental and theoretical studies of bainitic creep-resisting T23 steel. In CALPHAD XXXVIII (May 17-22, 2009). 2009.
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Základní údaje
Originální název Experimental and theoretical studies of bainitic creep-resisting T23 steel
Název česky Experimentální a teoretická studie bainitických creepově odolných T23 ocelí
Název anglicky Experimental and theoretical studies of bainitic creep-resisting T23 steel
Autoři SVOBODOVÁ, Marie (203 Česká republika, garant) a Jiří SOPOUŠEK (203 Česká republika, domácí).
Vydání CALPHAD XXXVIII (May 17-22, 2009), 2009.
Další údaje
Originální jazyk čeština
Typ výsledku Konferenční abstrakt
Obor 10403 Physical chemistry
Stát vydavatele Slovensko
Utajení není předmětem státního či obchodního tajemství
Kód RIV RIV/00216224:14310/09:00051151
Organizační jednotka Přírodovědecká fakulta
Klíčová slova česky CALPHAD; svar; fázové diagramy; ocel
Klíčová slova anglicky CALPHAD; weld; phase diagram; steel
Štítky CALPHAD, IK, Phase diagram, rivok, steel, weld
Příznaky Mezinárodní význam
Změnil Změnil: prof. RNDr. Jiří Sopoušek, CSc., učo 2405. Změněno: 7. 2. 2012 09:11.
Anotace
CALPHAD approach is a progressive tool of material engineering helping in a development of new advanced materials. Based on this approach, we can make phase diagram calculations and predictions, and simulate diffusion-controlled phase transformation, too. In a view of the application, these phase diagrams calculations play a significant role in a, i.e., prediction of thermal-induced structure changes in new materials supposed to be used for power industry. Furthermore, perhaps all structural parts of power plants are welded, so, if the operation temperature is achieving values above 500stC, the simulations of diffusion-controlled phase transformations occurring in so thermal loaded weld joints enable to predict their structure stability and then a service lifetime of all the structural part. One of those new materials supposed to be used for power industry is bainitic creep-resisting T23 steel, a modification of low-alloyed 2.25Cr-1Mo steel, containing Cr (2.25 wt.%), Mo (0.1 wt.%), C, V, Mn (each 0.2 wt.%), and B, N (each 0.006 wt.%). Moreover, T23 steel is alloyed with 1.6 wt.% of W and 0.04 wt.% of Nb. Due to addings, as-treated steel has an improved creep resistance, high elastic-plastic properties, and a good weldability. Therefore, T23 steel is said to be use for power components at operating conditions up to 600degC. Because of, considering a service lifetime of components, a necessary prediction of long-term structure, corrosion, and strength behaviour of the material, our research was focused on study of structure behaviour of T23 steel at long-term isothermal exposure at 650degC. In opposite to 100 000 hrs exposure at 600stC (maximum service temperature), the increased temperature allows to get same degraded structure of steel after already 10 000 hrs. The thermal-induced phase transformations of as-received, as-welded, and as-exposed T23 steel were predicted by using Thermo-Calc and DICTRA. At the same time, XRD analysis, light and electron microscopy, and Vickers hardness measurement were used.
Anotace anglicky
CALPHAD approach is a progressive tool of material engineering helping in a development of new advanced materials. Based on this approach, we can make phase diagram calculations and predictions, and simulate diffusion-controlled phase transformation, too. In a view of the application, these phase diagrams calculations play a significant role in a, i.e., prediction of thermal-induced structure changes in new materials supposed to be used for power industry. Furthermore, perhaps all structural parts of power plants are welded, so, if the operation temperature is achieving values above 500stC, the simulations of diffusion-controlled phase transformations occurring in so thermal loaded weld joints enable to predict their structure stability and then a service lifetime of all the structural part. One of those new materials supposed to be used for power industry is bainitic creep-resisting T23 steel, a modification of low-alloyed 2.25Cr-1Mo steel, containing Cr (2.25 wt.%), Mo (0.1 wt.%), C, V, Mn (each 0.2 wt.%), and B, N (each 0.006 wt.%). Moreover, T23 steel is alloyed with 1.6 wt.% of W and 0.04 wt.% of Nb. Due to addings, as-treated steel has an improved creep resistance, high elastic-plastic properties, and a good weldability. Therefore, T23 steel is said to be use for power components at operating conditions up to 600degC. Because of, considering a service lifetime of components, a necessary prediction of long-term structure, corrosion, and strength behaviour of the material, our research was focused on study of structure behaviour of T23 steel at long-term isothermal exposure at 650degC. In opposite to 100 000 hrs exposure at 600stC (maximum service temperature), the increased temperature allows to get same degraded structure of steel after already 10 000 hrs. The thermal-induced phase transformations of as-received, as-welded, and as-exposed T23 steel were predicted by using Thermo-Calc and DICTRA. At the same time, XRD analysis, light and electron microscopy, and Vickers hardness measurement were used.
VytisknoutZobrazeno: 20. 4. 2024 13:36