2008
DOI: 10.1016/j.actamat.2007.08.051
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Carbon partitioning to austenite from martensite or bainite during the quench and partition (Q&P) process: A critical assessment

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Cited by 393 publications
(219 citation statements)
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“…From an annealing process control perspective, it should be recognised that some Q&P thermal signatures may require careful control of both the quenching and partitioning temperatures, which may be mitigated through alloying in some instances, in comparison to conventional dual-phase and carbide-free bainitic TRIP steels where the overaging or austempering temperature is most critical, although some early modeling and experimental results suggest less sensitivity to quench temperature than initially expected. 9,10,19 Complex microstructures envisioned for the future will require continued efforts to minimise variability, and perhaps facility developments tailored specifically to overcome the sensitivity of microstructure and properties to process variations. Specific sensitivities are also dependent on the particular metallurgical approach of interest, creating further complications and opportunities.…”
Section: Industrial Implementationmentioning
confidence: 99%
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“…From an annealing process control perspective, it should be recognised that some Q&P thermal signatures may require careful control of both the quenching and partitioning temperatures, which may be mitigated through alloying in some instances, in comparison to conventional dual-phase and carbide-free bainitic TRIP steels where the overaging or austempering temperature is most critical, although some early modeling and experimental results suggest less sensitivity to quench temperature than initially expected. 9,10,19 Complex microstructures envisioned for the future will require continued efforts to minimise variability, and perhaps facility developments tailored specifically to overcome the sensitivity of microstructure and properties to process variations. Specific sensitivities are also dependent on the particular metallurgical approach of interest, creating further complications and opportunities.…”
Section: Industrial Implementationmentioning
confidence: 99%
“…Theoretical calculations informed by atom probe tomography (APT) and X-ray diffraction suggest that carbon partitioning from martensite to austenite better explains experimental austenite fractions, rather than solely bainite formation during the partitioning step. 19 In lieu of direct experimental evidence of carbon partitioning to austenite from martensite in low alloy compositions, high alloy compositions designed to suppress M s temperature and bainite formation now afford studies of austenite/martensite mixtures during the quenching and partitioning steps. Austenite and martensite/ferrite lattice parameter changes and phase fractions in a 0?64C-4?57Mn-1?30Si (wt-%) alloy after quenching and during the partitioning step have been monitored by in situ neutron diffraction, and austenite lattice dilations during partitioning support the mechanism of carbon partitioning to austenite from initially carbon supersaturated martensite.…”
mentioning
confidence: 99%
“…Studies conducted by several researchers 3,4 proved the possibility of achieving fractions of retained austenite through quenching and partitioning heat treatments in silicon containing steels. In these studies, it was possible to observe the dependence between the fractions of retained austenite (as well as its final carbon content) and the heat treatment conditions.…”
Section: Introductionmentioning
confidence: 99%
“…A taxa de deformação nominal em ambos os casos foi de 0,5 s -1 , o que está dentro da faixa das taxas de deformação encontradas durante ensaios convencionais de estampagem a quente [3]. Os parâmetros posteriores de têmpera e partição, realizados após austenitização intercrítica (QP -Figura 2c) ou deformação (HSQP -Figura 2d), de temperatura de têmpera (QT), tempo de têmpera (Qt), temperatura de partição (PT) e de tempo de partição (Pt), estão baseados no trabalho de Clarke et al [4]. O trabalho desses autores foi realizado em um aço TRIP de composição similar ao aço em estudo e, mostrou, após avaliação do processo de têmpera e partição com dois patamares (ou de dois steps, como é comumente encontrado na literatura), que temperaturas de têmpera na faixa dos 200°C aos 260°C (mantidos por 10s), e tempos de partição de 10, 30, 100 e 1000s (todos realizados com PT=400°C), que a maior fração de austenita foi obtida para as temperaturas de têmpera de 260°C e 240°C com tempos de partição 100 s e 30s, respectivamente.…”
Section: Materiais E Métodosunclassified