Effect of heat-treatment on strength of clays

The main objective of this investigation was to understand the strength development of clays below fusion or vitrification temperatures of 900°C. The other objective was to establish threshold temperatures to produce a satisfactory construction material from clayey sediments from the Western Beaufor...

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Bibliographic Details
Main Authors: Joshi, RC, Achari, G, Horsfield, D, Nagaraj, TS
Format: Article in Journal/Newspaper
Language:unknown
Published: American society of civil engineers 1994
Subjects:
Civil Engineering
Beaufort Sea
Online Access:http://eprints.iisc.ernet.in/36430/
http://eprints.iisc.ernet.in/36430/1/EFFECT_OF_HEAT_TREATMENT.pdf
http://ascelibrary.org/gto/resource/1/jgendz/v120/i6/p1080_s1
id ftiiscindia:oai:eprints.iisc.ernet.in:36430
record_format openpolar
spelling ftiiscindia:oai:eprints.iisc.ernet.in:36430 2023-05-15T15:40:13+02:00 Effect of heat-treatment on strength of clays Joshi, RC Achari, G Horsfield, D Nagaraj, TS 1994-06 application/pdf http://eprints.iisc.ernet.in/36430/ http://eprints.iisc.ernet.in/36430/1/EFFECT_OF_HEAT_TREATMENT.pdf http://ascelibrary.org/gto/resource/1/jgendz/v120/i6/p1080_s1 unknown American society of civil engineers http://eprints.iisc.ernet.in/36430/1/EFFECT_OF_HEAT_TREATMENT.pdf Joshi, RC and Achari, G and Horsfield, D and Nagaraj, TS (1994) Effect of heat-treatment on strength of clays. In: Journal of gotechnical and geoenvironmental engineering, 120 (6). pp. 1080-1088. Civil Engineering Journal Article PeerReviewed 1994 ftiiscindia 2014-09-27T18:04:28Z The main objective of this investigation was to understand the strength development of clays below fusion or vitrification temperatures of 900°C. The other objective was to establish threshold temperatures to produce a satisfactory construction material from clayey sediments from the Western Beaufort Sea for shore protection of artificial islands with minimum expense of thermal energy. Studies were, therefore, conducted using kaolinite, bentonite, and a clayey sediment from the Beaufort Sea. Unconfined-compressive-strength tests were conducted on clay samples heat treated from 110 to 700°C. Furthermore, to understand the factors responsible for strength-development-thermogravimetric studies and pore-size analysis, using mercury porosimetry, were also conducted. A gradual increase in strength was obtained with an increase in firing temperature. However, substantial and permanent increase in strength occurred only after dehydroxylation of all the clays studied; Clay samples heated to temperatures above dehydroxylation became resistant to disintegration upon immersion in water. Results indicate that the clayey sediments from Western Beaufort Sea have to be heat treated to about 600°C to produce granular material for use as a fill or shore-protection material for artificial islands. Article in Journal/Newspaper Beaufort Sea Indian Institute of Science, Bangalore: ePrints@IIsc
institution Open Polar
collection Indian Institute of Science, Bangalore: ePrints@IIsc
op_collection_id ftiiscindia
language unknown
topic Civil Engineering
spellingShingle Civil Engineering
Joshi, RC
Achari, G
Horsfield, D
Nagaraj, TS
Effect of heat-treatment on strength of clays
topic_facet Civil Engineering
description The main objective of this investigation was to understand the strength development of clays below fusion or vitrification temperatures of 900°C. The other objective was to establish threshold temperatures to produce a satisfactory construction material from clayey sediments from the Western Beaufort Sea for shore protection of artificial islands with minimum expense of thermal energy. Studies were, therefore, conducted using kaolinite, bentonite, and a clayey sediment from the Beaufort Sea. Unconfined-compressive-strength tests were conducted on clay samples heat treated from 110 to 700°C. Furthermore, to understand the factors responsible for strength-development-thermogravimetric studies and pore-size analysis, using mercury porosimetry, were also conducted. A gradual increase in strength was obtained with an increase in firing temperature. However, substantial and permanent increase in strength occurred only after dehydroxylation of all the clays studied; Clay samples heated to temperatures above dehydroxylation became resistant to disintegration upon immersion in water. Results indicate that the clayey sediments from Western Beaufort Sea have to be heat treated to about 600°C to produce granular material for use as a fill or shore-protection material for artificial islands.
format Article in Journal/Newspaper
author Joshi, RC
Achari, G
Horsfield, D
Nagaraj, TS
author_facet Joshi, RC
Achari, G
Horsfield, D
Nagaraj, TS
author_sort Joshi, RC
title Effect of heat-treatment on strength of clays
title_short Effect of heat-treatment on strength of clays
title_full Effect of heat-treatment on strength of clays
title_fullStr Effect of heat-treatment on strength of clays
title_full_unstemmed Effect of heat-treatment on strength of clays
title_sort effect of heat-treatment on strength of clays
publisher American society of civil engineers
publishDate 1994
url http://eprints.iisc.ernet.in/36430/
http://eprints.iisc.ernet.in/36430/1/EFFECT_OF_HEAT_TREATMENT.pdf
http://ascelibrary.org/gto/resource/1/jgendz/v120/i6/p1080_s1
genre Beaufort Sea
genre_facet Beaufort Sea
op_relation http://eprints.iisc.ernet.in/36430/1/EFFECT_OF_HEAT_TREATMENT.pdf
Joshi, RC and Achari, G and Horsfield, D and Nagaraj, TS (1994) Effect of heat-treatment on strength of clays. In: Journal of gotechnical and geoenvironmental engineering, 120 (6). pp. 1080-1088.
_version_ 1766372351432196096

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