. . "210851" . "Material-technological Modelling of Various Holding Times at the Partitioning Temperature in AHSS with Different Alloying Strategies" . "Lancaster" . . . "Ku\u010Derov\u00E1, Ludmila" . . . "RIV/49777513:23210/11:43898916!RIV14-MSM-23210___" . "000297713100172" . "Shanghai" . . "[F3BE32C61143]" . . "4"^^ . "23210" . . . . "Klauberov\u00E1, Danu\u0161e" . "partitioning temperature; AHSS; Q-P process; material-technological modelling"@en . "ADVANCES IN HETEROGENEOUS MATERIAL MECHANICS 2011" . . "2011-05-22+02:00"^^ . "Ma\u0161ek, Bohuslav" . "New methods of heat treatment usually require precise control of processing parameters. Therefore, a new type of heat treatment, the Q-P (quenching and partitioning) process, was carried out on a thermomechanical simulator, which enables application of rapid and precisely controlled temperature and deformation load. The most important Q-P process parameters are quenching and partitioning temperatures and partitioning hold, which affect not only the fraction of retained austenite but also precipitation of carbides. Q-P strategies with different partitioning conditions were tested on three different high strength low alloyed steels with different contents of Mn and Si. Strength of over 2000MPa with a ductility A5mm of about 14% was obtained for the optimal combination of partitioning hold conditions."@en . "978-1-60595-054-9" . . . . "P(1M06032), P(GA106/09/1968), S" . "New methods of heat treatment usually require precise control of processing parameters. Therefore, a new type of heat treatment, the Q-P (quenching and partitioning) process, was carried out on a thermomechanical simulator, which enables application of rapid and precisely controlled temperature and deformation load. The most important Q-P process parameters are quenching and partitioning temperatures and partitioning hold, which affect not only the fraction of retained austenite but also precipitation of carbides. Q-P strategies with different partitioning conditions were tested on three different high strength low alloyed steels with different contents of Mn and Si. Strength of over 2000MPa with a ductility A5mm of about 14% was obtained for the optimal combination of partitioning hold conditions." . "Material-technological Modelling of Various Holding Times at the Partitioning Temperature in AHSS with Different Alloying Strategies"@en . . . . "Material-technological Modelling of Various Holding Times at the Partitioning Temperature in AHSS with Different Alloying Strategies" . "Jirkov\u00E1, Hana" . . . "4"^^ . . . "Material-technological Modelling of Various Holding Times at the Partitioning Temperature in AHSS with Different Alloying Strategies"@en . "RIV/49777513:23210/11:43898916" . "4"^^ . . "DEStech Publications" .