Archives of Metallurgy and Materials

doi:10.24425/amm.2022.141057

2022

DOI: 10.24425/amm.2022.141057

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Archives of Metallurgy and Materials

Abstract: Internal FrIctIon Study on the InFluence oF Pre-deFormatIon on hydrogen embrIttlement SenSItIvIty oF dual-PhaSe Steelin this study, an electrochemical method was used to permeate hydrogen through annealed DP590 steel under various pre-strain conditions (0-15%). Stress-strain and internal friction-temperature curves of the dual phase (DP) steel were obtained from slow strain-rate tensile tests and internal friction measurements, respectively. The diffusion of interstitial atoms, formation of Cottrell atmosphere… Show more

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2023

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Effect of intercritical quenching soaking time on cryogenic toughness and internal friction characterization of 9Ni steel

Wang,

Pang,

Cui

et al. 2023

Mater. Res. Express

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Quenching, intercritical quenching and high temperature tempering of 9Ni steel is widely used in large-size and high-capacity liquefied natural gas storage tanks due to its excellent mechanical properties at low temperatures. This paper studied the microstructure, internal friction and mechanical properties of different intercritical quenching heat soaking times on the cryogenic toughness of 9Ni steel. The effect of martensitic strip thickness change on thermal stability and morphology of reversed austenite after intercritical quenching heat soaking time of 9Ni steel was revealed. The findings show that the thickness of the martensitic slats increases by 4.5 μm when the intercritical quenching of steel is conducted for 50 min, and the maximum concentration of Ni and Mn reaches 13.5 % and 10.25 %, respectively. The volume fraction of thin film reversed austenite is about 5 %. Different frequency under the condition of isothermal Snoek-Kê-Köster peak changes shows there will be a loss of mechanical energy in the process of phase transition.They are important factors for the maximum volume fraction of 9Ni steel film reversed austenite and the significant improvement of cryogenic toughness.

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Effect of intercritical quenching soaking time on cryogenic toughness and internal friction characterization of 9Ni steel

Wang,

Pang,

Cui

et al. 2023

Mater. Res. Express

View full text Add to dashboard Cite

show abstract

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Archives of Metallurgy and Materials

Cited by 1 publication

References 17 publications

Effect of intercritical quenching soaking time on cryogenic toughness and internal friction characterization of 9Ni steel

Effect of intercritical quenching soaking time on cryogenic toughness and internal friction characterization of 9Ni steel

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