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Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder

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Zeitschriftentitel: Key Engineering Materials
Personen und Körperschaften: Ondoy, Karl C., Pajarito, Bryan B.
In: Key Engineering Materials, 705, 2016, S. 24-29
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Trans Tech Publications, Ltd.
Schlagwörter:
Mechanical Engineering
Mechanics of Materials
General Materials Science
author_facet Ondoy, Karl C.
Pajarito, Bryan B.
Ondoy, Karl C.
Pajarito, Bryan B.
author Ondoy, Karl C.
Pajarito, Bryan B.
spellingShingle Ondoy, Karl C.
Pajarito, Bryan B.
Key Engineering Materials
Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
Mechanical Engineering
Mechanics of Materials
General Materials Science
author_sort ondoy, karl c.
spelling Ondoy, Karl C. Pajarito, Bryan B. 1662-9795 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials General Materials Science http://dx.doi.org/10.4028/www.scientific.net/kem.705.24 <jats:p>This study reports the results of investigation on the main and interaction effects of grit type, aging temperature, and aging time on particle size of ground natural rubber/zeolite (GNR/Z) composite powder using general factorial design of experiment. GNR/Z composite powder produced by mechanical grinding is porous, like an aggregated chain structure. These aggregates exist in clusters of irregular shape. Analysis of variance (ANOVA) shows that the effects of aging temperature and aging time depend on the particle size range. GNR/Z composite powder with large particle size is produced when aging is done at low temperature and short time due to high resistance of rubber to oxidation. On the other hand, GNR/Z composite powder with small particle size is produced when aging is done at low or high temperature and longer aging time. Low temperature condition offers high O<jats:sub>2</jats:sub> concentration available to oxidize rubber while high temperature condition leads to more chain scissions due to higher oxidation rate.</jats:p> Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder Key Engineering Materials
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recordtype ai
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series Key Engineering Materials
source_id 49
title Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_unstemmed Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_full Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_fullStr Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_full_unstemmed Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_short Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_sort effect of grit type, aging temperature, and aging time on particle size of ground natural rubber/zeolite composite powder
topic Mechanical Engineering
Mechanics of Materials
General Materials Science
url http://dx.doi.org/10.4028/www.scientific.net/kem.705.24
publishDate 2016
physical 24-29
description <jats:p>This study reports the results of investigation on the main and interaction effects of grit type, aging temperature, and aging time on particle size of ground natural rubber/zeolite (GNR/Z) composite powder using general factorial design of experiment. GNR/Z composite powder produced by mechanical grinding is porous, like an aggregated chain structure. These aggregates exist in clusters of irregular shape. Analysis of variance (ANOVA) shows that the effects of aging temperature and aging time depend on the particle size range. GNR/Z composite powder with large particle size is produced when aging is done at low temperature and short time due to high resistance of rubber to oxidation. On the other hand, GNR/Z composite powder with small particle size is produced when aging is done at low or high temperature and longer aging time. Low temperature condition offers high O<jats:sub>2</jats:sub> concentration available to oxidize rubber while high temperature condition leads to more chain scissions due to higher oxidation rate.</jats:p>
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author Ondoy, Karl C., Pajarito, Bryan B.
author_facet Ondoy, Karl C., Pajarito, Bryan B., Ondoy, Karl C., Pajarito, Bryan B.
author_sort ondoy, karl c.
container_start_page 24
container_title Key Engineering Materials
container_volume 705
description <jats:p>This study reports the results of investigation on the main and interaction effects of grit type, aging temperature, and aging time on particle size of ground natural rubber/zeolite (GNR/Z) composite powder using general factorial design of experiment. GNR/Z composite powder produced by mechanical grinding is porous, like an aggregated chain structure. These aggregates exist in clusters of irregular shape. Analysis of variance (ANOVA) shows that the effects of aging temperature and aging time depend on the particle size range. GNR/Z composite powder with large particle size is produced when aging is done at low temperature and short time due to high resistance of rubber to oxidation. On the other hand, GNR/Z composite powder with small particle size is produced when aging is done at low or high temperature and longer aging time. Low temperature condition offers high O<jats:sub>2</jats:sub> concentration available to oxidize rubber while high temperature condition leads to more chain scissions due to higher oxidation rate.</jats:p>
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physical 24-29
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publisher Trans Tech Publications, Ltd.
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recordtype ai
series Key Engineering Materials
source_id 49
spelling Ondoy, Karl C. Pajarito, Bryan B. 1662-9795 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials General Materials Science http://dx.doi.org/10.4028/www.scientific.net/kem.705.24 <jats:p>This study reports the results of investigation on the main and interaction effects of grit type, aging temperature, and aging time on particle size of ground natural rubber/zeolite (GNR/Z) composite powder using general factorial design of experiment. GNR/Z composite powder produced by mechanical grinding is porous, like an aggregated chain structure. These aggregates exist in clusters of irregular shape. Analysis of variance (ANOVA) shows that the effects of aging temperature and aging time depend on the particle size range. GNR/Z composite powder with large particle size is produced when aging is done at low temperature and short time due to high resistance of rubber to oxidation. On the other hand, GNR/Z composite powder with small particle size is produced when aging is done at low or high temperature and longer aging time. Low temperature condition offers high O<jats:sub>2</jats:sub> concentration available to oxidize rubber while high temperature condition leads to more chain scissions due to higher oxidation rate.</jats:p> Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder Key Engineering Materials
spellingShingle Ondoy, Karl C., Pajarito, Bryan B., Key Engineering Materials, Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder, Mechanical Engineering, Mechanics of Materials, General Materials Science
title Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_full Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_fullStr Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_full_unstemmed Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_short Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
title_sort effect of grit type, aging temperature, and aging time on particle size of ground natural rubber/zeolite composite powder
title_unstemmed Effect of Grit Type, Aging Temperature, and Aging Time on Particle Size of Ground Natural Rubber/Zeolite Composite Powder
topic Mechanical Engineering, Mechanics of Materials, General Materials Science
url http://dx.doi.org/10.4028/www.scientific.net/kem.705.24