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Recent Innovations in Fluorosilicone Rubber
关键字:Fluorosilicone Rubber
In this paper we have described 2 key areas of recentFLUOROSILICONE RUBBER innovation that contributeto a wide range of growth opportunities for this class ofmaterial.
http://www.polymer.cn/research/dis_info9215 |
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Viscoelasticity of polyisoprene rubber under deformation
The deformation and the relaxation near the glass transition temperature are usually nonlinear and depend on the sample history. We are trying to describe these phenomena by the superposition of linear viscoelasticity that depends ...
http://www.polymer.cn/research/dis_info12883 |
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Material Specifications for Rubber Dams
关键字:Rubber Dams
Seit Ende der fünfziger Jahre werden Schlauchmem -branen aus gewebeverstärkten Elastomer-Bahnen beiSchlauch wehranlagen für die Stauregelung von Flüsseneingesetzt. Bei diesen flexiblen Wehrverschlüssen wirdeine Schlauchmembran aus konfektionierten, gewebe ...
http://www.polymer.cn/research/dis_info9326 |
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Pyrogenic Silica in Rubber Applications
关键字:Pyrogenic Silica
Pyrogenic (fumed) Silica have been successfully used in awide variety of applications for more than sixty years andis the main filler in silicone rubber. Originally invented as an alternative for carbon black as filler in rub...
http://www.polymer.cn/research/dis_info9256 |
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Recent Innovations in Fluorosilicone Rubber
关键字:Fluorosilicone Rubber
In this paper we have described 2 key areas of recentFLUOROSILICONE RUBBER innovation that contributeto a wide range of growth opportunities for this class ofmaterial.
http://www.polymer.cn/research/dis_info9215 |
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Online Characterization of Morphology Development in Rubber Compounds and Immiscible Rubber Blend Clay Nanocomposites
关键字:Immiscible Rubber Blend Clay Nanocomposites
The morphology and filler dispersion in polymer-claynanocomposites are usually characterized by offline techniques,like, transmission electron microscopy (TEM), atomic force microscopy (AFM) [1], small angle X-ray scattering (SAXS), nuclear magnetic reson...
http://www.polymer.cn/research/ct_info955 |
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Online Characterization of Morphology Development in Rubber Compounds and Immiscible Rubber Blend Clay Nanocomposites
关键字:Immiscible Rubber Blend Clay Nanocomposites
The morphology and filler dispersion in polymer-claynanocomposites are usually characterized by offline techniques,like, transmission electron microscopy (TEM), atomic force microscopy (AFM) [1], small angle X-ray scattering (SAXS), nuclear magnetic reson...
http://www.polymer.cn/research/dis_info9315 |
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Online Characterization of Morphology Development in Rubber Compounds and Immiscible Rubber Blend Clay Nanocomposites
关键字:Immiscible Rubber Blend Clay Nanocomposites
http://www.polymer.cn/Industry/industry2571.html |
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Online Characterization of Morphology Development in Rubber Compounds and Immiscible Rubber Blend Clay Nanocomposites
关键字:Immiscible Rubber Blend Clay Nanocomposites
The morphology and filler dispersion in polymer-claynanocomposites are usually characterized by offline techniques,like, transmission electron microscopy (TEM), atomic force microscopy (AFM) [1], small angle X-ray scattering (SAXS), nuclear magnetic reson...
http://www.polymer.cn/research/ct_info955 |
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Online Characterization of Morphology Development in Rubber Compounds and Immiscible Rubber Blend Clay Nanocomposites
关键字:Immiscible Rubber Blend Clay Nanocomposites
The morphology and filler dispersion in polymer-claynanocomposites are usually characterized by offline techniques,like, transmission electron microscopy (TEM), atomic force microscopy (AFM) [1], small angle X-ray scattering (SAXS), nuclear magnetic reson...
http://www.polymer.cn/research/dis_info9315 |
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