Effects of ABS rubber particles on rheology, melt failure, and thermoforming.(acrylonitrile-butadiene-styrene)(rsr)(Statistical Data Included): An article from: Polymer Engineering and Science
Book Details
PublisherSociety of Plastics Engineers, Inc.
ISBN / ASINB0009FRF68
ISBN-13978B0009FRF67
AvailabilityAvailable for download now
Sales Rank8,805,974
MarketplaceUnited States 🇺🇸
Description
This digital document is an article from Polymer Engineering and Science, published by Society of Plastics Engineers, Inc. on July 1, 2002. The length of the article is 7733 words. The page length shown above is based on a typical 300-word page. The article is delivered in HTML format and is available in your Amazon.com Digital Locker immediately after purchase. You can view it with any web browser.
From the author: The rubber particles included in rubber modified polymeric materials such as acrylonitrile-butadiene-styrene (ABS) polymer and impact modified polymers play an important role in determining their rheological properties, processing behavior, and mechanical properties. In this study both small strain oscillatory shear viscosity in the frequency range from [10.sup.-2] to [10.sup.2] [s.sup.-1] and uniaxial elongational viscosity behavior at two elongation rates ([espilon] = 0.1 and 1.0 [s.sup.-1]) over the range of temperatures from 140[degrees]C to 200[degrees]C were measured for commercial ABS polymers with different contents and deformability of rubber particles. The influences of rubber content and deformability on rheological properties such as melt elasticity, elongational viscosity, strain hardening and/or softening, the onset of nonuniform deformation, and thermoforming performance were investigated. The Wagner two-parameter nonlinear viscoelastic constitutive model was used to describe strain hardening b ehavior, while the Considere criterion was used to determine the onset point of nonuniform deformation. The part thickness distribution obtained through use of a vacuum snap-back forming process was simulated to investigate the effects of rheological changes associated with different rubber particles on the thermoforming performance. It was found that ABS polymers with larger contents of hard rubber particles exhibited more melt elasticity, stronger strain hardening, a maximum of biaxial elongational viscosity, onset of nonuniform deformation at later time, and better thermoforming performance. Strain hardening and the Considere criterion provide simple. reliable indicators of the thermoforming performance of ABS polymers.
Citation Details
Title: Effects of ABS rubber particles on rheology, melt failure, and thermoforming.(acrylonitrile-butadiene-styrene)(rsr)(Statistical Data Included)
Author: Je Kyun Lee
Publication:Polymer Engineering and Science (Refereed)
Date: July 1, 2002
Publisher: Society of Plastics Engineers, Inc.
Volume: 42 Issue: 7 Page: 1541(17)
Article Type: Statistical Data Included
Distributed by Thomson Gale
From the author: The rubber particles included in rubber modified polymeric materials such as acrylonitrile-butadiene-styrene (ABS) polymer and impact modified polymers play an important role in determining their rheological properties, processing behavior, and mechanical properties. In this study both small strain oscillatory shear viscosity in the frequency range from [10.sup.-2] to [10.sup.2] [s.sup.-1] and uniaxial elongational viscosity behavior at two elongation rates ([espilon] = 0.1 and 1.0 [s.sup.-1]) over the range of temperatures from 140[degrees]C to 200[degrees]C were measured for commercial ABS polymers with different contents and deformability of rubber particles. The influences of rubber content and deformability on rheological properties such as melt elasticity, elongational viscosity, strain hardening and/or softening, the onset of nonuniform deformation, and thermoforming performance were investigated. The Wagner two-parameter nonlinear viscoelastic constitutive model was used to describe strain hardening b ehavior, while the Considere criterion was used to determine the onset point of nonuniform deformation. The part thickness distribution obtained through use of a vacuum snap-back forming process was simulated to investigate the effects of rheological changes associated with different rubber particles on the thermoforming performance. It was found that ABS polymers with larger contents of hard rubber particles exhibited more melt elasticity, stronger strain hardening, a maximum of biaxial elongational viscosity, onset of nonuniform deformation at later time, and better thermoforming performance. Strain hardening and the Considere criterion provide simple. reliable indicators of the thermoforming performance of ABS polymers.
Citation Details
Title: Effects of ABS rubber particles on rheology, melt failure, and thermoforming.(acrylonitrile-butadiene-styrene)(rsr)(Statistical Data Included)
Author: Je Kyun Lee
Publication:Polymer Engineering and Science (Refereed)
Date: July 1, 2002
Publisher: Society of Plastics Engineers, Inc.
Volume: 42 Issue: 7 Page: 1541(17)
Article Type: Statistical Data Included
Distributed by Thomson Gale
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