Effects of heat treatment on hardness and dry wear properties of a semi-solid processed Fe-27 wt pct Cr-2.9 wt pct C cast iron

Effects of heat treatments on hardness and dry wear properties of a semi-solid processed Fe-26.96 wt pct Cr-2.91 wt pct C cast iron were studied. Heat treatments included tempering at 500°C, destabilisation at 1075°C and destabilisation at 1075°C plus tempering at 500°C, all followed by air cooling....

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Main Authors: A. Wiengmoon, T. Chairuangsri, N. Chomsang, N. Poolthong, J. T H Pearce
Format: Journal
Published: 2018
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http://cmuir.cmu.ac.th/jspui/handle/6653943832/60534
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-605342018-09-10T03:44:30Z Effects of heat treatment on hardness and dry wear properties of a semi-solid processed Fe-27 wt pct Cr-2.9 wt pct C cast iron A. Wiengmoon T. Chairuangsri N. Chomsang N. Poolthong J. T H Pearce Materials Science Effects of heat treatments on hardness and dry wear properties of a semi-solid processed Fe-26.96 wt pct Cr-2.91 wt pct C cast iron were studied. Heat treatments included tempering at 500°C, destabilisation at 1075°C and destabilisation at 1075°C plus tempering at 500°C, all followed by air cooling. Electron microscopy revealed that, in the as-cast condition, the primary proeutectic austenite was round in shape while the eutectic M7C3 carbide was found as radiating clusters mixed with directional clusters. Tempering did not change the microstructure significantly when observed by scanning or transmission electron microscopy. Destabilisation followed by air cooling led to a precipitation of secondary M23C6 carbide and a transformation of the primary austenite to martensite. Precipitation behaviour is comparable to that observed in the conventionally cast iron. Tempering after destabilisation resulted in a higher amount of secondary carbide precipitation within the tempered martensite in the eutectic structure. Vickers macrohardness and microhardness in the proeutectic zones were measured. Dry wear properties were tested by using a pin-on-disc method. The maximum hardness and the lowest dry wear rate were obtained from the destabilisation-plus-tempering heat treatment due to the precipitation of secondary carbides within the martensite matrix and a possible reduction in the retained austenite. 2018-09-10T03:44:30Z 2018-09-10T03:44:30Z 2008-05-01 Journal 10050302 2-s2.0-45449114420 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=45449114420&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/60534
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
topic Materials Science
spellingShingle Materials Science
A. Wiengmoon
T. Chairuangsri
N. Chomsang
N. Poolthong
J. T H Pearce
Effects of heat treatment on hardness and dry wear properties of a semi-solid processed Fe-27 wt pct Cr-2.9 wt pct C cast iron
description Effects of heat treatments on hardness and dry wear properties of a semi-solid processed Fe-26.96 wt pct Cr-2.91 wt pct C cast iron were studied. Heat treatments included tempering at 500°C, destabilisation at 1075°C and destabilisation at 1075°C plus tempering at 500°C, all followed by air cooling. Electron microscopy revealed that, in the as-cast condition, the primary proeutectic austenite was round in shape while the eutectic M7C3 carbide was found as radiating clusters mixed with directional clusters. Tempering did not change the microstructure significantly when observed by scanning or transmission electron microscopy. Destabilisation followed by air cooling led to a precipitation of secondary M23C6 carbide and a transformation of the primary austenite to martensite. Precipitation behaviour is comparable to that observed in the conventionally cast iron. Tempering after destabilisation resulted in a higher amount of secondary carbide precipitation within the tempered martensite in the eutectic structure. Vickers macrohardness and microhardness in the proeutectic zones were measured. Dry wear properties were tested by using a pin-on-disc method. The maximum hardness and the lowest dry wear rate were obtained from the destabilisation-plus-tempering heat treatment due to the precipitation of secondary carbides within the martensite matrix and a possible reduction in the retained austenite.
format Journal
author A. Wiengmoon
T. Chairuangsri
N. Chomsang
N. Poolthong
J. T H Pearce
author_facet A. Wiengmoon
T. Chairuangsri
N. Chomsang
N. Poolthong
J. T H Pearce
author_sort A. Wiengmoon
title Effects of heat treatment on hardness and dry wear properties of a semi-solid processed Fe-27 wt pct Cr-2.9 wt pct C cast iron
title_short Effects of heat treatment on hardness and dry wear properties of a semi-solid processed Fe-27 wt pct Cr-2.9 wt pct C cast iron
title_full Effects of heat treatment on hardness and dry wear properties of a semi-solid processed Fe-27 wt pct Cr-2.9 wt pct C cast iron
title_fullStr Effects of heat treatment on hardness and dry wear properties of a semi-solid processed Fe-27 wt pct Cr-2.9 wt pct C cast iron
title_full_unstemmed Effects of heat treatment on hardness and dry wear properties of a semi-solid processed Fe-27 wt pct Cr-2.9 wt pct C cast iron
title_sort effects of heat treatment on hardness and dry wear properties of a semi-solid processed fe-27 wt pct cr-2.9 wt pct c cast iron
publishDate 2018
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=45449114420&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/60534
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