. "[2B6626B35A2B]" . "Influence of Thermal Treatment on the Heat Transfer of 10GN2MFA Steel" . . "326-328" . "5"^^ . . "Seidl, David" . "Ko\u0161tial, Pavol" . . "Influence of Thermal Treatment on the Heat Transfer of 10GN2MFA Steel"@en . "1662-9507" . "Ru\u017Eiak, Ivan" . . "Jon\u0161ta, Petr" . . . . . . "27360" . . "RIV/61989100:27360/12:86082127" . "Influence of Thermal Treatment on the Heat Transfer of 10GN2MFA Steel"@en . . "10.4028/www.scientific.net/DDF.326-328.60" . . . . "4"^^ . . . . "P(ED0040/01/01), Z(MSM6198910015)" . . "thermal treatment, low carbon steel, lumped capacitance method, thermal diffusivity, specific heat capacity, thermal conductivity"@en . . . "Deffect and Diffusion Forum" . "141666" . "Jan\u010D\u00EDkov\u00E1, Zora" . "RIV/61989100:27360/12:86082127!RIV13-MSM-27360___" . "Influence of Thermal Treatment on the Heat Transfer of 10GN2MFA Steel" . "Ru\u017Eiak, Ivan" . "Three samples of 10GN2MFA steel were thermally treated at quenching temperatures equal to 900\u00B0C, 1000\u00B0C and 1100\u00B0C, and temperature of the tempering was 670\u00B0C. Thermophysical properties of the steel were modelled by lumped capacity model. The sample was mechanically stressed under yield strength and then the cooling curve of stressed material on air was measured. The heat transfer through grips was taken into account. Thermo-physical properties were obtained by parametric fitting of time-temperature data obtained from cooling curve. Both thermal diffusivity and thermal conductivity increase with the quenching temperature. Specific heat capacity of steel samples after thermal treatment does not change significantly. All the measured thermophysical parameters were in good agreement with the table values for low carbon Ni steels."@en . . "CH - \u0160v\u00FDcarsk\u00E1 konfederace" . . "Three samples of 10GN2MFA steel were thermally treated at quenching temperatures equal to 900\u00B0C, 1000\u00B0C and 1100\u00B0C, and temperature of the tempering was 670\u00B0C. Thermophysical properties of the steel were modelled by lumped capacity model. The sample was mechanically stressed under yield strength and then the cooling curve of stressed material on air was measured. The heat transfer through grips was taken into account. Thermo-physical properties were obtained by parametric fitting of time-temperature data obtained from cooling curve. Both thermal diffusivity and thermal conductivity increase with the quenching temperature. Specific heat capacity of steel samples after thermal treatment does not change significantly. All the measured thermophysical parameters were in good agreement with the table values for low carbon Ni steels." . "5"^^ . "1" . .