Premade vs. reactively formed compatibilizers for PMMA/PS melt blends

Hyun K. Jeon; Jianbin Zhang; Christopher W. Macosko

doi:10.1016/j.polymer.2005.10.125

Premade vs. reactively formed compatibilizers for PMMA/PS melt blends

Hyun K. Jeon, Jianbin Zhang, Christopher W. Macosko

Chemical Engineering and Materials Science

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

56 Scopus citations

Abstract

The efficiency of two compatibilization methods, adding premade copolymers versus in situ formation of copolymers, were compared by evaluating the minor phase size and size distribution. Premade diblock copolymers were formed by coupling amine terminal polystyrene (PS-NH₂) with anhydride terminal poly(methyl methacrylate) (PMMA-An) in solution. Mid-functional PMMA was coupled with the PS-NH₂ to form graft copolymers. The same block and graft copolymers were formed in situ during melt blending. After mixing, the particle size and distribution were analyzed by transmission electron microscope (TEM). While both methods compatibilized blends, in situ formation reduced the minor phase size further. For the reactive case, graft copolymers are slight better than the block ones. This is attributed to a greater capacity for reducing interfacial tension. For the premade case, block copolymers compatibilize better at low copolymer concentration while graft copolymers work better at high concentration. As the amount of block copolymers added into the blends increases, the number of micelles increases significantly. This is believed to be the reason why premade copolymers are less capable of compatibilizing blends than the reactively formed ones.

Original language	English (US)
Pages (from-to)	12422-12429
Number of pages	8
Journal	Polymer
Volume	46
Issue number	26
DOIs	https://doi.org/10.1016/j.polymer.2005.10.125
State	Published - Dec 12 2005

Bibliographical note

Funding Information:
This research has been supported by grants from the MRSEC program of the National Science Foundation under Award Number DMR-0212302, IPRIME (the Industrial Partnership for Research in Interfacial and Materials Engineering at the University of Minnesota) and the Dow Chemical Company. The authors thank Robert Jérôme and Zhihui Yin of the University of Liêge for providing the PS-NH 2 , Bongjin Moon for synthesis of the functional PMMAs, and Steve Hahn of the Dow Chemical Company for providing the PS (18 kg/mol).

Copyright:
Copyright 2018 Elsevier B.V., All rights reserved.

Keywords

Compatibilization
Premade copolymer
Reactively formed copolymer

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title = "Premade vs. reactively formed compatibilizers for PMMA/PS melt blends",

abstract = "The efficiency of two compatibilization methods, adding premade copolymers versus in situ formation of copolymers, were compared by evaluating the minor phase size and size distribution. Premade diblock copolymers were formed by coupling amine terminal polystyrene (PS-NH2) with anhydride terminal poly(methyl methacrylate) (PMMA-An) in solution. Mid-functional PMMA was coupled with the PS-NH2 to form graft copolymers. The same block and graft copolymers were formed in situ during melt blending. After mixing, the particle size and distribution were analyzed by transmission electron microscope (TEM). While both methods compatibilized blends, in situ formation reduced the minor phase size further. For the reactive case, graft copolymers are slight better than the block ones. This is attributed to a greater capacity for reducing interfacial tension. For the premade case, block copolymers compatibilize better at low copolymer concentration while graft copolymers work better at high concentration. As the amount of block copolymers added into the blends increases, the number of micelles increases significantly. This is believed to be the reason why premade copolymers are less capable of compatibilizing blends than the reactively formed ones.",

keywords = "Compatibilization, Premade copolymer, Reactively formed copolymer",

author = "Jeon, {Hyun K.} and Jianbin Zhang and Macosko, {Christopher W.}",

note = "Funding Information: This research has been supported by grants from the MRSEC program of the National Science Foundation under Award Number DMR-0212302, IPRIME (the Industrial Partnership for Research in Interfacial and Materials Engineering at the University of Minnesota) and the Dow Chemical Company. The authors thank Robert J{\'e}r{\^o}me and Zhihui Yin of the University of Li{\^e}ge for providing the PS-NH 2 , Bongjin Moon for synthesis of the functional PMMAs, and Steve Hahn of the Dow Chemical Company for providing the PS (18 kg/mol). Copyright: Copyright 2018 Elsevier B.V., All rights reserved.",

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N2 - The efficiency of two compatibilization methods, adding premade copolymers versus in situ formation of copolymers, were compared by evaluating the minor phase size and size distribution. Premade diblock copolymers were formed by coupling amine terminal polystyrene (PS-NH2) with anhydride terminal poly(methyl methacrylate) (PMMA-An) in solution. Mid-functional PMMA was coupled with the PS-NH2 to form graft copolymers. The same block and graft copolymers were formed in situ during melt blending. After mixing, the particle size and distribution were analyzed by transmission electron microscope (TEM). While both methods compatibilized blends, in situ formation reduced the minor phase size further. For the reactive case, graft copolymers are slight better than the block ones. This is attributed to a greater capacity for reducing interfacial tension. For the premade case, block copolymers compatibilize better at low copolymer concentration while graft copolymers work better at high concentration. As the amount of block copolymers added into the blends increases, the number of micelles increases significantly. This is believed to be the reason why premade copolymers are less capable of compatibilizing blends than the reactively formed ones.

AB - The efficiency of two compatibilization methods, adding premade copolymers versus in situ formation of copolymers, were compared by evaluating the minor phase size and size distribution. Premade diblock copolymers were formed by coupling amine terminal polystyrene (PS-NH2) with anhydride terminal poly(methyl methacrylate) (PMMA-An) in solution. Mid-functional PMMA was coupled with the PS-NH2 to form graft copolymers. The same block and graft copolymers were formed in situ during melt blending. After mixing, the particle size and distribution were analyzed by transmission electron microscope (TEM). While both methods compatibilized blends, in situ formation reduced the minor phase size further. For the reactive case, graft copolymers are slight better than the block ones. This is attributed to a greater capacity for reducing interfacial tension. For the premade case, block copolymers compatibilize better at low copolymer concentration while graft copolymers work better at high concentration. As the amount of block copolymers added into the blends increases, the number of micelles increases significantly. This is believed to be the reason why premade copolymers are less capable of compatibilizing blends than the reactively formed ones.

KW - Compatibilization

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KW - Reactively formed copolymer

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Premade vs. reactively formed compatibilizers for PMMA/PS melt blends

Abstract

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Keywords

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