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Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron

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Zeitschriftentitel: Applied Mechanics and Materials
Personen und Körperschaften: Peng, Chuan Xiao, Cui, Wen Chao, Yang, Xiao Yan, Wang, Li
In: Applied Mechanics and Materials, 740, 2015, S. 36-42
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Trans Tech Publications, Ltd.
Schlagwörter:
General Engineering
author_facet Peng, Chuan Xiao
Cui, Wen Chao
Yang, Xiao Yan
Wang, Li
Peng, Chuan Xiao
Cui, Wen Chao
Yang, Xiao Yan
Wang, Li
author Peng, Chuan Xiao
Cui, Wen Chao
Yang, Xiao Yan
Wang, Li
spellingShingle Peng, Chuan Xiao
Cui, Wen Chao
Yang, Xiao Yan
Wang, Li
Applied Mechanics and Materials
Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
General Engineering
author_sort peng, chuan xiao
spelling Peng, Chuan Xiao Cui, Wen Chao Yang, Xiao Yan Wang, Li 1662-7482 Trans Tech Publications, Ltd. General Engineering http://dx.doi.org/10.4028/www.scientific.net/amm.740.36 <jats:p>The effect of destabilization at (960°C,1000°C,1050°C) followed by sub-critical heat treatment (SCHT) at (260°C, 450°C, 550°C) on microstructure and mechanical properties of a hypereutectic chromium cast iron containing 31 wt.% Cr was investigated. The response of the microstructure of the specimens differed significantly to heat treatment. With increasing destabilization temperature, the amount of retained austenite increased and it became more stable during following SCHT. The peak values of bulk hardness deceased with increasing destabilization temperature, while higher SCHT was needed to reach the hardness maximum. The hardness and erosion wear property of the specimens destabilization at 960°C or 1000°C deteriorated after SCHT at 550°C due to the formation of ferrite/carbide product, which was not found in the specimens destabilization at 1050°C followed by SCHT at 550°C. The specimen destabilization at 960°C + SCHT at 260°C performed best erosion wear resistance with matrix of martensite containing little austenite.</jats:p> Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron Applied Mechanics and Materials
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series Applied Mechanics and Materials
source_id 49
title Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_unstemmed Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_full Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_fullStr Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_full_unstemmed Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_short Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_sort effect of heat treatment on microstructure and mechanical properties of cr31 hypereutectic cast iron
topic General Engineering
url http://dx.doi.org/10.4028/www.scientific.net/amm.740.36
publishDate 2015
physical 36-42
description <jats:p>The effect of destabilization at (960°C,1000°C,1050°C) followed by sub-critical heat treatment (SCHT) at (260°C, 450°C, 550°C) on microstructure and mechanical properties of a hypereutectic chromium cast iron containing 31 wt.% Cr was investigated. The response of the microstructure of the specimens differed significantly to heat treatment. With increasing destabilization temperature, the amount of retained austenite increased and it became more stable during following SCHT. The peak values of bulk hardness deceased with increasing destabilization temperature, while higher SCHT was needed to reach the hardness maximum. The hardness and erosion wear property of the specimens destabilization at 960°C or 1000°C deteriorated after SCHT at 550°C due to the formation of ferrite/carbide product, which was not found in the specimens destabilization at 1050°C followed by SCHT at 550°C. The specimen destabilization at 960°C + SCHT at 260°C performed best erosion wear resistance with matrix of martensite containing little austenite.</jats:p>
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author Peng, Chuan Xiao, Cui, Wen Chao, Yang, Xiao Yan, Wang, Li
author_facet Peng, Chuan Xiao, Cui, Wen Chao, Yang, Xiao Yan, Wang, Li, Peng, Chuan Xiao, Cui, Wen Chao, Yang, Xiao Yan, Wang, Li
author_sort peng, chuan xiao
container_start_page 36
container_title Applied Mechanics and Materials
container_volume 740
description <jats:p>The effect of destabilization at (960°C,1000°C,1050°C) followed by sub-critical heat treatment (SCHT) at (260°C, 450°C, 550°C) on microstructure and mechanical properties of a hypereutectic chromium cast iron containing 31 wt.% Cr was investigated. The response of the microstructure of the specimens differed significantly to heat treatment. With increasing destabilization temperature, the amount of retained austenite increased and it became more stable during following SCHT. The peak values of bulk hardness deceased with increasing destabilization temperature, while higher SCHT was needed to reach the hardness maximum. The hardness and erosion wear property of the specimens destabilization at 960°C or 1000°C deteriorated after SCHT at 550°C due to the formation of ferrite/carbide product, which was not found in the specimens destabilization at 1050°C followed by SCHT at 550°C. The specimen destabilization at 960°C + SCHT at 260°C performed best erosion wear resistance with matrix of martensite containing little austenite.</jats:p>
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imprint_str_mv Trans Tech Publications, Ltd., 2015
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physical 36-42
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publisher Trans Tech Publications, Ltd.
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series Applied Mechanics and Materials
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spelling Peng, Chuan Xiao Cui, Wen Chao Yang, Xiao Yan Wang, Li 1662-7482 Trans Tech Publications, Ltd. General Engineering http://dx.doi.org/10.4028/www.scientific.net/amm.740.36 <jats:p>The effect of destabilization at (960°C,1000°C,1050°C) followed by sub-critical heat treatment (SCHT) at (260°C, 450°C, 550°C) on microstructure and mechanical properties of a hypereutectic chromium cast iron containing 31 wt.% Cr was investigated. The response of the microstructure of the specimens differed significantly to heat treatment. With increasing destabilization temperature, the amount of retained austenite increased and it became more stable during following SCHT. The peak values of bulk hardness deceased with increasing destabilization temperature, while higher SCHT was needed to reach the hardness maximum. The hardness and erosion wear property of the specimens destabilization at 960°C or 1000°C deteriorated after SCHT at 550°C due to the formation of ferrite/carbide product, which was not found in the specimens destabilization at 1050°C followed by SCHT at 550°C. The specimen destabilization at 960°C + SCHT at 260°C performed best erosion wear resistance with matrix of martensite containing little austenite.</jats:p> Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron Applied Mechanics and Materials
spellingShingle Peng, Chuan Xiao, Cui, Wen Chao, Yang, Xiao Yan, Wang, Li, Applied Mechanics and Materials, Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron, General Engineering
title Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_full Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_fullStr Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_full_unstemmed Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_short Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
title_sort effect of heat treatment on microstructure and mechanical properties of cr31 hypereutectic cast iron
title_unstemmed Effect of Heat Treatment on Microstructure and Mechanical Properties of Cr31 Hypereutectic Cast Iron
topic General Engineering
url http://dx.doi.org/10.4028/www.scientific.net/amm.740.36