Energy model of the interfacial slip of polymer blends under steady shear

L. Jiang; Y. C. Lam; C. Y. Yue; K. C. Tam; L. Li; X. Hu

doi:10.1002/app.12330

Energy model of the interfacial slip of polymer blends under steady shear

L. Jiang, Y. C. Lam^*, C. Y. Yue, K. C. Tam, L. Li, X. Hu

^*Corresponding author for this work

Nanyang Technological University

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

Interfacial slip at high-density polyethylene (HDPE)/polystyrene (PS) and high-impact polystyrene (HIPS)/PS interfaces under steady shear was studied. The multilayer structure and energy model for steady shear proposed by Lam and colleagues was employed. Results indicated that there was no interfacial slip at the HIPS/PS interface. However, interfacial slip was detected for HDPE/PS under steady shear. Small interfacial thickness and weak interactions between HDPE and PS was proposed as the reason for interfacial slip at the HDPE/PS interface. Chain orientation under shear was believed to promote chain disentanglement in the interfacial layer and therefore increase interfacial slip.

Original language	English
Pages (from-to)	1464-1470
Number of pages	7
Journal	Journal of Applied Polymer Science
Volume	89
Issue number	6
DOIs	https://doi.org/10.1002/app.12330
Publication status	Published - Aug 8 2003
Externally published	Yes

ASJC Scopus Subject Areas

General Chemistry
Surfaces, Coatings and Films
Polymers and Plastics
Materials Chemistry

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10.1002/app.12330

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title = "Energy model of the interfacial slip of polymer blends under steady shear",

abstract = "Interfacial slip at high-density polyethylene (HDPE)/polystyrene (PS) and high-impact polystyrene (HIPS)/PS interfaces under steady shear was studied. The multilayer structure and energy model for steady shear proposed by Lam and colleagues was employed. Results indicated that there was no interfacial slip at the HIPS/PS interface. However, interfacial slip was detected for HDPE/PS under steady shear. Small interfacial thickness and weak interactions between HDPE and PS was proposed as the reason for interfacial slip at the HDPE/PS interface. Chain orientation under shear was believed to promote chain disentanglement in the interfacial layer and therefore increase interfacial slip.",

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T1 - Energy model of the interfacial slip of polymer blends under steady shear

AU - Jiang, L.

AU - Lam, Y. C.

AU - Yue, C. Y.

AU - Tam, K. C.

AU - Li, L.

AU - Hu, X.

PY - 2003/8/8

Y1 - 2003/8/8

N2 - Interfacial slip at high-density polyethylene (HDPE)/polystyrene (PS) and high-impact polystyrene (HIPS)/PS interfaces under steady shear was studied. The multilayer structure and energy model for steady shear proposed by Lam and colleagues was employed. Results indicated that there was no interfacial slip at the HIPS/PS interface. However, interfacial slip was detected for HDPE/PS under steady shear. Small interfacial thickness and weak interactions between HDPE and PS was proposed as the reason for interfacial slip at the HDPE/PS interface. Chain orientation under shear was believed to promote chain disentanglement in the interfacial layer and therefore increase interfacial slip.

AB - Interfacial slip at high-density polyethylene (HDPE)/polystyrene (PS) and high-impact polystyrene (HIPS)/PS interfaces under steady shear was studied. The multilayer structure and energy model for steady shear proposed by Lam and colleagues was employed. Results indicated that there was no interfacial slip at the HIPS/PS interface. However, interfacial slip was detected for HDPE/PS under steady shear. Small interfacial thickness and weak interactions between HDPE and PS was proposed as the reason for interfacial slip at the HDPE/PS interface. Chain orientation under shear was believed to promote chain disentanglement in the interfacial layer and therefore increase interfacial slip.

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DO - 10.1002/app.12330

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JO - Journal of Applied Polymer Science

JF - Journal of Applied Polymer Science

IS - 6

ER -

Energy model of the interfacial slip of polymer blends under steady shear

Abstract

ASJC Scopus Subject Areas

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