"1006-706X" . . "Journal of Iron and Steel Research International" . "4"^^ . "P(GA106/09/1968)" . "The current efforts in production of low-alloyed steels are aimed at achieving high ultimate and yield strengths, while maintaining sufficient elongation and good weldability in these materials. Among advanced heat treatment processes capable of reaching this goal, there is also the Q-P process (Quenching and Partitioning). The process consists in rapid quenching between the Ms and Mf temperatures in order to prevent full martensitic transformation. The immediately following heating leads to tempering of the martensite and to diffusion of excess carbon from martensite to retained austenite. The aim of the Q-P process is to produce very fine martensite microstructure with retained austenite between martensite plates. The experimental programme was carried out on a high-strength low-alloyed steel containing 0.2% carbon and a higher amount of silicon about 1.5%. Higher silicon content in the microstructure contributes to stabilization of retained austenite by suppressing formation of carbides. The paper is aimed at possibility of the Q-P process optimization with the use of quenching dilatometer. The experimental material is CMnSiMo steel. Conventional process optimization consists of standard samples treatment in laboratory furnaces and baths. This procedure can be time consuming with higher requirements on the experimental material. Therefore, it was proposed that the Q-P process optimization can be done with the use of quenching dilatometer and in this way the development of new procedures can be accelerated. Q-P processes were conducted in the standard way and with the aid of a dilatometer. Comparison of the obtained results provided by the standard procedure and by the procedure using the quenching dilatometer showed very similar results. On the basis of the obtained results, it can be concluded that the quenching dilatometer can be a powerful tool in Q-P processes optimization."@en . "Moty\u010Dka, Petr" . . . . "The current efforts in production of low-alloyed steels are aimed at achieving high ultimate and yield strengths, while maintaining sufficient elongation and good weldability in these materials. Among advanced heat treatment processes capable of reaching this goal, there is also the Q-P process (Quenching and Partitioning). The process consists in rapid quenching between the Ms and Mf temperatures in order to prevent full martensitic transformation. The immediately following heating leads to tempering of the martensite and to diffusion of excess carbon from martensite to retained austenite. The aim of the Q-P process is to produce very fine martensite microstructure with retained austenite between martensite plates. The experimental programme was carried out on a high-strength low-alloyed steel containing 0.2% carbon and a higher amount of silicon about 1.5%. Higher silicon content in the microstructure contributes to stabilization of retained austenite by suppressing formation of carbides. The paper is aimed at possibility of the Q-P process optimization with the use of quenching dilatometer. The experimental material is CMnSiMo steel. Conventional process optimization consists of standard samples treatment in laboratory furnaces and baths. This procedure can be time consuming with higher requirements on the experimental material. Therefore, it was proposed that the Q-P process optimization can be done with the use of quenching dilatometer and in this way the development of new procedures can be accelerated. Q-P processes were conducted in the standard way and with the aid of a dilatometer. Comparison of the obtained results provided by the standard procedure and by the procedure using the quenching dilatometer showed very similar results. On the basis of the obtained results, it can be concluded that the quenching dilatometer can be a powerful tool in Q-P processes optimization." . . . . . "Q-P Process Optimization With the Use of Quenching Dilatometer" . . . . "Q-P Process Optimization With the Use of Quenching Dilatometer"@en . "[D5CCF058D6C7]" . "RIV/26316919:_____/11:#0000283" . . "Hauserov\u00E1, Daniela" . "225351" . . . . "RIV/26316919:_____/11:#0000283!RIV12-GA0-26316919" . "Q-P Process Optimization With the Use of Quenching Dilatometer"@en . "Volume 18" . "000292229000071" . . "Nov\u00FD, Zby\u0161ek" . "D\u017Eugan, J\u00E1n" . "CN - \u010C\u00EDnsk\u00E1 lidov\u00E1 republika" . . "Q-P process, dilatometer, low-alloyed steel"@en . "Q-P Process Optimization With the Use of Quenching Dilatometer" . . . "5"^^ . "4"^^ .