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Bimodal networks and networks reinforced by the in situ precipitation of silica

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Zeitschriftentitel: British Polymer Journal
Personen und Körperschaften: Mark, James E.
In: British Polymer Journal, 17, 1985, 2, S. 144-148
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
General Engineering
General Materials Science
author_facet Mark, James E.
Mark, James E.
author Mark, James E.
spellingShingle Mark, James E.
British Polymer Journal
Bimodal networks and networks reinforced by the in situ precipitation of silica
General Engineering
General Materials Science
author_sort mark, james e.
spelling Mark, James E. 0007-1641 1934-256X Wiley General Engineering General Materials Science http://dx.doi.org/10.1002/pi.4980170211 <jats:title>Abstract</jats:title><jats:p>The goal of primary interest in these investigations was the development of novel methods for preparing elastomeric networks having unusually good ultimate properties. The first technique employed involves endlinking mixtures of very short and relatively long functionally‐terminated chains to give bimodal networks. Such (unfilled) elastomers show very large increases in reduced stress or modulus at high elongations because of the very limited extensibility of the short chains present in the networks. The second technique employs the <jats:italic>in situ</jats:italic> precipitation of reinforcing silica either after, during, or before network formation. The reaction involves hydrolysis of tetraethylorthosilicate, using a variety of catalysts and precipitation conditions, and the effectiveness of the technique is gauged by stress‐strain measurements carried out to yield values of the maximum extensibility, ultimate strength, and energy of rupture of the filled networks. Information on the filler particles thus introduced is obtained from density determinations, light scattering measurements, and electron microscopy.</jats:p> Bimodal networks and networks reinforced by the <i>in situ</i> precipitation of silica British Polymer Journal
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issn 0007-1641
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series British Polymer Journal
source_id 49
title Bimodal networks and networks reinforced by the in situ precipitation of silica
title_unstemmed Bimodal networks and networks reinforced by the in situ precipitation of silica
title_full Bimodal networks and networks reinforced by the in situ precipitation of silica
title_fullStr Bimodal networks and networks reinforced by the in situ precipitation of silica
title_full_unstemmed Bimodal networks and networks reinforced by the in situ precipitation of silica
title_short Bimodal networks and networks reinforced by the in situ precipitation of silica
title_sort bimodal networks and networks reinforced by the <i>in situ</i> precipitation of silica
topic General Engineering
General Materials Science
url http://dx.doi.org/10.1002/pi.4980170211
publishDate 1985
physical 144-148
description <jats:title>Abstract</jats:title><jats:p>The goal of primary interest in these investigations was the development of novel methods for preparing elastomeric networks having unusually good ultimate properties. The first technique employed involves endlinking mixtures of very short and relatively long functionally‐terminated chains to give bimodal networks. Such (unfilled) elastomers show very large increases in reduced stress or modulus at high elongations because of the very limited extensibility of the short chains present in the networks. The second technique employs the <jats:italic>in situ</jats:italic> precipitation of reinforcing silica either after, during, or before network formation. The reaction involves hydrolysis of tetraethylorthosilicate, using a variety of catalysts and precipitation conditions, and the effectiveness of the technique is gauged by stress‐strain measurements carried out to yield values of the maximum extensibility, ultimate strength, and energy of rupture of the filled networks. Information on the filler particles thus introduced is obtained from density determinations, light scattering measurements, and electron microscopy.</jats:p>
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author Mark, James E.
author_facet Mark, James E., Mark, James E.
author_sort mark, james e.
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container_title British Polymer Journal
container_volume 17
description <jats:title>Abstract</jats:title><jats:p>The goal of primary interest in these investigations was the development of novel methods for preparing elastomeric networks having unusually good ultimate properties. The first technique employed involves endlinking mixtures of very short and relatively long functionally‐terminated chains to give bimodal networks. Such (unfilled) elastomers show very large increases in reduced stress or modulus at high elongations because of the very limited extensibility of the short chains present in the networks. The second technique employs the <jats:italic>in situ</jats:italic> precipitation of reinforcing silica either after, during, or before network formation. The reaction involves hydrolysis of tetraethylorthosilicate, using a variety of catalysts and precipitation conditions, and the effectiveness of the technique is gauged by stress‐strain measurements carried out to yield values of the maximum extensibility, ultimate strength, and energy of rupture of the filled networks. Information on the filler particles thus introduced is obtained from density determinations, light scattering measurements, and electron microscopy.</jats:p>
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id ai-49-aHR0cDovL2R4LmRvaS5vcmcvMTAuMTAwMi9waS40OTgwMTcwMjEx
imprint Wiley, 1985
imprint_str_mv Wiley, 1985
institution DE-D275, DE-Bn3, DE-Brt1, DE-D161, DE-Gla1, DE-Zi4, DE-15, DE-Rs1, DE-Pl11, DE-105, DE-14, DE-Ch1, DE-L229
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language English
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match_str mark1985bimodalnetworksandnetworksreinforcedbytheinsituprecipitationofsilica
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physical 144-148
publishDate 1985
publishDateSort 1985
publisher Wiley
record_format ai
recordtype ai
series British Polymer Journal
source_id 49
spelling Mark, James E. 0007-1641 1934-256X Wiley General Engineering General Materials Science http://dx.doi.org/10.1002/pi.4980170211 <jats:title>Abstract</jats:title><jats:p>The goal of primary interest in these investigations was the development of novel methods for preparing elastomeric networks having unusually good ultimate properties. The first technique employed involves endlinking mixtures of very short and relatively long functionally‐terminated chains to give bimodal networks. Such (unfilled) elastomers show very large increases in reduced stress or modulus at high elongations because of the very limited extensibility of the short chains present in the networks. The second technique employs the <jats:italic>in situ</jats:italic> precipitation of reinforcing silica either after, during, or before network formation. The reaction involves hydrolysis of tetraethylorthosilicate, using a variety of catalysts and precipitation conditions, and the effectiveness of the technique is gauged by stress‐strain measurements carried out to yield values of the maximum extensibility, ultimate strength, and energy of rupture of the filled networks. Information on the filler particles thus introduced is obtained from density determinations, light scattering measurements, and electron microscopy.</jats:p> Bimodal networks and networks reinforced by the <i>in situ</i> precipitation of silica British Polymer Journal
spellingShingle Mark, James E., British Polymer Journal, Bimodal networks and networks reinforced by the in situ precipitation of silica, General Engineering, General Materials Science
title Bimodal networks and networks reinforced by the in situ precipitation of silica
title_full Bimodal networks and networks reinforced by the in situ precipitation of silica
title_fullStr Bimodal networks and networks reinforced by the in situ precipitation of silica
title_full_unstemmed Bimodal networks and networks reinforced by the in situ precipitation of silica
title_short Bimodal networks and networks reinforced by the in situ precipitation of silica
title_sort bimodal networks and networks reinforced by the <i>in situ</i> precipitation of silica
title_unstemmed Bimodal networks and networks reinforced by the in situ precipitation of silica
topic General Engineering, General Materials Science
url http://dx.doi.org/10.1002/pi.4980170211