2016
DOI: 10.3390/met6090223
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Deformation Characteristic and Constitutive Modeling of 2707 Hyper Duplex Stainless Steel under Hot Compression

Abstract: Hot deformation behavior and microstructure evolution of 2707 hyper duplex stainless steel (HDSS) were investigated through hot compression tests in the temperature range of 900-1250 • C and strain rate range of 0.01-10 s −1 . The results showed that the flow behavior strongly depended on strain rate and temperature, and flow stress increased with increasing strain rate and decreasing temperature. At lower temperatures, many precipitates appeared in ferrite and distributed along the deformation direction, whic… Show more

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Cited by 18 publications
(8 citation statements)
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“…DSS is not as resistant as ferritic SS but more resistant than austenitic against SCC [15]. The susceptibility of DSS to SCC depends on many factors, including alloying elements [120,121], microstructures [122,123], applied stresses [124,125], and environment [126][127][128][129].…”
Section: Stress-corrosion Crackingmentioning
confidence: 99%
“…DSS is not as resistant as ferritic SS but more resistant than austenitic against SCC [15]. The susceptibility of DSS to SCC depends on many factors, including alloying elements [120,121], microstructures [122,123], applied stresses [124,125], and environment [126][127][128][129].…”
Section: Stress-corrosion Crackingmentioning
confidence: 99%
“…In addition, processing temperatures and strain rates are equally important for the plastic deformation behavior. Therefore, the dynamics of TMP can be understood through the investigation of microstructural changes combined with interpretations of trends of flow stress-strain curves which depend on DRV and DRX, and SRX [76,77]. I.…”
Section: Figurementioning
confidence: 99%
“…A, α and n are the material constants, and α = β/n 1 , Z is the Zener−Hollomon parameter. According to previous research [30,31], the power law expression of true stress in Equation 1is generally used for the low stress level, conversely the exponential law in Equation 2is preferred for the high stress level, while the hyperbolic sine law in Equation 3is suitable for all the stress levels. In the present study, the hyperbolic sine law in Equation 3is applied for the description of the hot deformation behavior of the experimental material.…”
Section: Calculation Of the Materials Constantsmentioning
confidence: 99%