Atomistic study of nano-sized kappa-carbide formation and, its interaction with dislocations in a cast Si added FeMnAlC lightweight steel
- Title
- Atomistic study of nano-sized kappa-carbide formation and, its interaction with dislocations in a cast Si added FeMnAlC lightweight steel
- Author(s)
- Kim, C. W. ; Kwon, S. I. ; Lee, B. H. ; Moon, J. O. ; Park, S. J. ; Lee, J. H. ; Hong, H. U.
- Issued Date
- 2016-09-15
- Citation
- Materials Science and Engineering a: Structural Materials Properties Microstructure and Processing, v.673, pp.108 - 113
- Type
- Article
- Author Keywords
- Tomography ; Lightweight steel ; Dislocations ; Plasticity ; Precipitation ; Shear bands
- Keywords
- ALLOY ; Atomistic Studies ; BEHAVIOR ; C AUSTENITIC STEELS ; Carbide Formation ; Carbides ; Carbon ; DEFORMATION ; Dislocations ; Dislocations (Crystals) ; ENERGY ; HIGH-STRENGTH ; Light-Weight Steels ; Lightweight Steel ; LOW-DENSITY ; Manganese ; MECHANICAL-PROPERTIES ; Nano Sized ; Plasticity ; Precipitation ; Precipitation (Chemical) ; Shear Bands ; Si Addition ; Silicon ; Tomography
- ISSN
- 0921-5093
- Abstract
- The Si addition facilitates the partitioning of carbon to κ-carbide during aging in a Fe–30Mn–9Al–0.9C–0.5Mo lightweight steel, i.e. from (Fe,Mn)3AlC0.38 to (Fe,Mn)3AlC0.51. Reduced plasticity was found in 1% Si-added specimen where one directional shearing of κ-carbide was prominent. Novel insights into dislocation-κ-carbide interactions are discussed in terms of atomistic shear. © 2016 Elsevier B.V.
- Publisher
- ELSEVIER SCIENCE SA
- Related Researcher
-
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Lee, Bong Ho 중앙기기센터
- Research Interests
-
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- Appears in Collections:
- Center for Core Research Facilities 1. Journal Articles
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