Temperature Dependence of the Static and Dynamic Behaviour in a Quenching and Partitioning Processed Low-Si Steel

Vercruysse, Florian; Celada-Casero, Carola; Linke, Bernd M.; Verleysen, Patricia; Petrov, Roumen

doi:10.3390/met10040509

Cited by 15 publications

(6 citation statements)

References 64 publications

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“…1.27b. The suppression of TRIP effect due to increased strain rate was also reported in [197], where the RA transformation was retarded when the strain rate reached to 500 s −1 . However, such effect of strain rate on RA transformation was not observed in Q&P 980 steel studied by interrupted SHTB tests [198].…”

Section: High Strain Rate Tensile Behaviorsupporting

confidence: 61%

High Strain Rate Mechanical Behavior of Advanced High Strength Steels

Xia¹

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Además, la respuesta del acero Q&P se examinó cuidadosamente en una amplia gama de tasas de deformación (10 −4 -10 3 s −1 ) mediante el uso de una máquina universal de ensayos, un sistema de barra de tensión dividida Hopkinson (SHTB) y una técnica de correlación de imagen digital (DIC). El límite elástico (YS) del acero Q&P en pruebas dinámicas (500 -1000 s −1 ) es 200 MPa más alto en comparación con las pruebas estáticas (10 −4 y 10 −2 s −1 ), mientras que la resistencia a la tracción final (UTS) tiende a aumentar linealmente con la velocidad de deformación. La fracción de austenita retenida (RA) disminuye exponencialmente con el aumento de la deformación plástica durante las pruebas de tracción estáticas y dinámicas.

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Section: High Strain Rate Tensile Behaviorsupporting

confidence: 61%

High Strain Rate Mechanical Behavior of Advanced High Strength Steels

Xia¹

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“…Vercruysse et al [8] studied the static and dynamic tensile properties of a Q&Ptreated Fe-0-2C-1.25Si-2.4Mn-0.023Al (wt.%) steel in the temperature range from −40 • C to 80 • C. The material showed excellent low-temperature tensile properties because of the high thermal stability of retained austenite, which could contribute to the transformationinduced plasticity (TRIP) effect during testing at low temperatures. However, uniform elongation significantly dropped at 80 • C due to less effective use of the TRIP effect at this temperature.…”

Section: Contributionsmentioning

confidence: 99%

Advanced High-Strength Steels by Quenching and Partitioning

Sabirov

Santofimia

Petrov

2021

Metals

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“…Although some research has been carried out on the effect of the stability of austenite on hydrogen susceptibility, it is still not completely understood. In earlier publications of the authors, it was reported that imposing a high strain rate, as would be the case in a car crash, affects the TRIP effect due to the adiabatic heating influencing the stability of austenite [4]. Therefore, the present research is focused on the effect of the addition of Nb on the HE susceptibility of a Q&P steel under static and dynamic loading conditions.…”

Section: Introductionmentioning

confidence: 97%

The effect of Nb on the high strain rate hydrogen embrittlement of Q&P steel

et al. 2021

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Quenching and Partitioning (Q&P) steels are, due to their excellent combination of strength and ductility, seen as good candidates for the third generation advanced high strength steels (AHSS). Although the TRIP effect is beneficial for the overall mechanical behaviour of these steels it potentially can have detrimental effects when strained in a hydrogenenriched environment. The solubility of hydrogen is high in austenite but low in high carbon martensite. Martensite is even in the absence of hydrogen already a possible damage initiation spot. The effect of hydrogen under static and dynamic tensile loading was evaluated in a Q&P and a Nb micro-alloyed Q&P steel. Experiments were carried out under a strain rate ranging from 0.03 s-1 till 500 s-1 and correlated with the hydrogen uptake characterised via thermal desorption spectroscopy (TDS). The presence of Nb resulted in a 25% increase in the hydrogen uptake capacity. A higher susceptibility to hydrogen was observed in the Nb steel partially due to the high hydrogen fraction, but also because of the larger fraction of low stability austenite. However, when tested under dynamic conditions the hydrogen susceptibility is minor and even improved in the micro-alloyed Q&P steel compared to the standard Q&P steel.

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Temperature Dependence of the Static and Dynamic Behaviour in a Quenching and Partitioning Processed Low-Si Steel

Cited by 15 publications

References 64 publications

High Strain Rate Mechanical Behavior of Advanced High Strength Steels

High Strain Rate Mechanical Behavior of Advanced High Strength Steels

Advanced High-Strength Steels by Quenching and Partitioning

The effect of Nb on the high strain rate hydrogen embrittlement of Q&P steel

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