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Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound

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Zeitschriftentitel: Advanced Materials Research
Personen und Körperschaften: Ananoria, Abhel, Pajarito, Bryan B.
In: Advanced Materials Research, 1125, 2015, S. 55-59
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Trans Tech Publications, Ltd.
Schlagwörter:
General Engineering
author_facet Ananoria, Abhel
Pajarito, Bryan B.
Ananoria, Abhel
Pajarito, Bryan B.
author Ananoria, Abhel
Pajarito, Bryan B.
spellingShingle Ananoria, Abhel
Pajarito, Bryan B.
Advanced Materials Research
Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
General Engineering
author_sort ananoria, abhel
spelling Ananoria, Abhel Pajarito, Bryan B. 1662-8985 Trans Tech Publications, Ltd. General Engineering http://dx.doi.org/10.4028/www.scientific.net/amr.1125.55 <jats:p>Water transport properties of a vulcanized natural rubber compound are studied as function of ingredient loading using gravimetric method at 800C. Rubber sheets are compounded according to a fractional factorial design of experiment, where ingredients are treated as factors varied at two levels of loading. Weight change during immersion in water is monitored. The maximum uptakes are determined from the sorption curves which showed two distinct slopes of which two uptake rates are estimated. Analysis of variance shows that high loadings of sulfur, asphalt, and used oil significantly increase the maximum uptake and first uptake rate while only sulfur and asphalt significantly increase the second uptake rate. On the other hand, high loadings of reclaimed rubber, calcium carbonate (CaCO<jats:sub>3</jats:sub>), mercaptobenzothiazole (MBT) significantly decrease the maximum amount of water uptake. Similarly, high loading of mercaptobenzothiazole disulfide (MBTS) significantly decrease the initial uptake rate while high loadings of reclaimed rubber, CaCO<jats:sub>3</jats:sub>, kaolin clay, and MBT decrease the final uptake rate of rubber compounds.</jats:p> Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound Advanced Materials Research
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title Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_unstemmed Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_full Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_fullStr Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_full_unstemmed Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_short Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_sort effect of ingredient loading on water transport properties of a vulcanized natural rubber compound
topic General Engineering
url http://dx.doi.org/10.4028/www.scientific.net/amr.1125.55
publishDate 2015
physical 55-59
description <jats:p>Water transport properties of a vulcanized natural rubber compound are studied as function of ingredient loading using gravimetric method at 800C. Rubber sheets are compounded according to a fractional factorial design of experiment, where ingredients are treated as factors varied at two levels of loading. Weight change during immersion in water is monitored. The maximum uptakes are determined from the sorption curves which showed two distinct slopes of which two uptake rates are estimated. Analysis of variance shows that high loadings of sulfur, asphalt, and used oil significantly increase the maximum uptake and first uptake rate while only sulfur and asphalt significantly increase the second uptake rate. On the other hand, high loadings of reclaimed rubber, calcium carbonate (CaCO<jats:sub>3</jats:sub>), mercaptobenzothiazole (MBT) significantly decrease the maximum amount of water uptake. Similarly, high loading of mercaptobenzothiazole disulfide (MBTS) significantly decrease the initial uptake rate while high loadings of reclaimed rubber, CaCO<jats:sub>3</jats:sub>, kaolin clay, and MBT decrease the final uptake rate of rubber compounds.</jats:p>
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author Ananoria, Abhel, Pajarito, Bryan B.
author_facet Ananoria, Abhel, Pajarito, Bryan B., Ananoria, Abhel, Pajarito, Bryan B.
author_sort ananoria, abhel
container_start_page 55
container_title Advanced Materials Research
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description <jats:p>Water transport properties of a vulcanized natural rubber compound are studied as function of ingredient loading using gravimetric method at 800C. Rubber sheets are compounded according to a fractional factorial design of experiment, where ingredients are treated as factors varied at two levels of loading. Weight change during immersion in water is monitored. The maximum uptakes are determined from the sorption curves which showed two distinct slopes of which two uptake rates are estimated. Analysis of variance shows that high loadings of sulfur, asphalt, and used oil significantly increase the maximum uptake and first uptake rate while only sulfur and asphalt significantly increase the second uptake rate. On the other hand, high loadings of reclaimed rubber, calcium carbonate (CaCO<jats:sub>3</jats:sub>), mercaptobenzothiazole (MBT) significantly decrease the maximum amount of water uptake. Similarly, high loading of mercaptobenzothiazole disulfide (MBTS) significantly decrease the initial uptake rate while high loadings of reclaimed rubber, CaCO<jats:sub>3</jats:sub>, kaolin clay, and MBT decrease the final uptake rate of rubber compounds.</jats:p>
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spelling Ananoria, Abhel Pajarito, Bryan B. 1662-8985 Trans Tech Publications, Ltd. General Engineering http://dx.doi.org/10.4028/www.scientific.net/amr.1125.55 <jats:p>Water transport properties of a vulcanized natural rubber compound are studied as function of ingredient loading using gravimetric method at 800C. Rubber sheets are compounded according to a fractional factorial design of experiment, where ingredients are treated as factors varied at two levels of loading. Weight change during immersion in water is monitored. The maximum uptakes are determined from the sorption curves which showed two distinct slopes of which two uptake rates are estimated. Analysis of variance shows that high loadings of sulfur, asphalt, and used oil significantly increase the maximum uptake and first uptake rate while only sulfur and asphalt significantly increase the second uptake rate. On the other hand, high loadings of reclaimed rubber, calcium carbonate (CaCO<jats:sub>3</jats:sub>), mercaptobenzothiazole (MBT) significantly decrease the maximum amount of water uptake. Similarly, high loading of mercaptobenzothiazole disulfide (MBTS) significantly decrease the initial uptake rate while high loadings of reclaimed rubber, CaCO<jats:sub>3</jats:sub>, kaolin clay, and MBT decrease the final uptake rate of rubber compounds.</jats:p> Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound Advanced Materials Research
spellingShingle Ananoria, Abhel, Pajarito, Bryan B., Advanced Materials Research, Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound, General Engineering
title Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_full Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_fullStr Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_full_unstemmed Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_short Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
title_sort effect of ingredient loading on water transport properties of a vulcanized natural rubber compound
title_unstemmed Effect of Ingredient Loading on Water Transport Properties of a Vulcanized Natural Rubber Compound
topic General Engineering
url http://dx.doi.org/10.4028/www.scientific.net/amr.1125.55