Degradation Evaluation of Mechanical Property for Modified 9Cr-1Mo Steel by Reversible Permeability

Bong, Chung-jong; Ryu, Kwon-Sang; Nahm, Seung Hoon; Kim, Eun Kyu

doi:10.4283/jmag.2011.16.1.042

Cited by 5 publications

(3 citation statements)

References 11 publications

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“…In addition, plastic deformation evolves lattice defects in materials such as vacancy and dislocation. It creates a significant increase in dislocation density and dislocation tangles are believed to be the pinning sites of domain wall movement [8,9]. This dislocation may exert a force on the domain wall and play the role of obstacles to the 180 Bloch wall movement.…”

Section: Resultsmentioning

confidence: 99%

“…With increased internal stress, the critical field required to move a domain wall across a pinning site, and implicitly the wall energy gradient, increases. Dislocation tangles are energetically significant enough to produce effective pinning sites for domain walls [8,9]. Dislocation density increases during plastic deformation lead to changes in the domain wall energy gradient at pinning sites.…”

Section: Resultsmentioning

confidence: 99%

“…Reversible magnetic permeability is the limited value of the incremental permeability when the incremental permeability is at ∆H→0 [9]. Magnetic properties are usually measured at the fixed magnetic field applied to the test samples in most magnetic techniques.…”

Section: Introductionmentioning

confidence: 99%

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Dynamic Coercivity of Tempered Ferritic Steel Subjected to Creep-Fatigue for Nondestructive Evaluation by Reversible Permeability

Kim¹

2020

Applied Sciences

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This study aims to characterize nondestructively the creep-fatigue damage of tempered ferritic steel by dynamic coercivity measured by reversible permeability. The creep-fatigue test was achieved under load control with a hold time of 60 s and 600 s. The dynamic coercivity based on the reversible magnetic permeability profiles was successfully obtained on top of the test specimen. Based on these results, we attempted to evaluate the creep-fatigue of tempered ferritic steel with the support of microstructural evaluation such as dislocations and precipitates. The dynamic coercivity decreases with fatigue life fraction and closely related to the number of Cr23C6 precipitates with N0.8 and the dislocation density with ρ0.4 In addition, Vickers’s hardness continuously decreased up to the failure deducing the softening of mechanical strength. In conclusion, it can nondestructively characterize the influence of the precipitates and dislocation density on the dynamic coercivity of ferritic steel during creep-fatigue.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Dynamic Coercivity of Tempered Ferritic Steel Subjected to Creep-Fatigue for Nondestructive Evaluation by Reversible Permeability

Kim¹

2020

Applied Sciences

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Effects of Maganese Impurity on the Crystallographic and Spin-Rotation Transitions in FeS

Nam¹,

Kim²

2018

New Physics: Sae Mulli

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The effects of manganese ions on the crystallographic and the spin-rotation transitions in iron sulfide have been examined by using Mössbauer spectroscopy in the temperature ranging from 78 to 600 K. The manganese impurity of Mn0.02Fe0.98S is noted to affect both the crystallographic and spin-rotation transitions in the iron sulfide. The impurity of 2% of Mn 2+ in FeS causes an increase in the separation between the spin rotation and the α transition temperatures by as much as 20 K compared with that for FeS without the impurity. Both the 1c and the 2c structures coexist in the temperature range between the α transition temperature and approximately 27 K, with a smaller hyperfine field corresponding to the 1c structure. The spin-rotation temperature for Mn0.02Fe0.98S was measured as 366 K, which is 22 K lower than the α transition temperature. For a 2% impurity of Mn 2+ in FeS, the Néel temperature is not appreciably affected.

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Two-Phase Magnet in the Co/Co₂MnSn System

Kim¹,

Yim²,

Lee³

et al. 2011

Journal of Magnetics

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.This study reports on Co/Co 2 MnSn two-phase magnets. The Co/Co 2 MnSn two-phase magnet has Co precipitates in a Co 2 MnSn Heusler alloy matrix, in which the two phases are exchange-coupled at the phase boundary. The as-casted Co/Co 2 MnSn system, which has Co-Mn solid solution precipitates in a Co 2 MnSn Heusler alloy matrix, showed that the Co solid solution precipitates are crystallographically coherent and there is exchange coupling at the phase boundary. To form pure Co precipitates by removal of Mn solute atoms in CoMn solid solution, annealing was carried out 48 hours at 870 o C. After annealing, the low T c and low magnetization phase of the Co-Mn solid solution became a high T c and high magnetization phase of hexagonal Co.

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Degradation Evaluation of Mechanical Property for Modified 9Cr-1Mo Steel by Reversible Permeability

Cited by 5 publications

References 11 publications

Dynamic Coercivity of Tempered Ferritic Steel Subjected to Creep-Fatigue for Nondestructive Evaluation by Reversible Permeability

Dynamic Coercivity of Tempered Ferritic Steel Subjected to Creep-Fatigue for Nondestructive Evaluation by Reversible Permeability

Effects of Maganese Impurity on the Crystallographic and Spin-Rotation Transitions in FeS

Two-Phase Magnet in the Co/Co₂MnSn System

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Degradation Evaluation of Mechanical Property for Modified 9Cr-1Mo Steel by Reversible Permeability

Cited by 5 publications

References 11 publications

Dynamic Coercivity of Tempered Ferritic Steel Subjected to Creep-Fatigue for Nondestructive Evaluation by Reversible Permeability

Dynamic Coercivity of Tempered Ferritic Steel Subjected to Creep-Fatigue for Nondestructive Evaluation by Reversible Permeability

Effects of Maganese Impurity on the Crystallographic and Spin-Rotation Transitions in FeS

Two-Phase Magnet in the Co/Co2MnSn System

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Product

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Two-Phase Magnet in the Co/Co₂MnSn System