The significant increase of Waste Electric and Electronic Equipment (WEEE) has led to an important research in upgrading recycled engineering plastics by means of a blending technique. In particular, there is an interest in studying the properties of ABS/PC blends, the two most important components of WEEE, at ABS rich compositions, according to the generation ratio of waste [1].   Since ABS and PC are immiscible, the final properties depend to a large extent on the flow-induced morphology [2]. In order to better control the final blend morphology of injection molded samples, we propose a two-step approach: the first step consists in producing pellets with multilayered structure, using a multilayer coextrusion device. During the second subsequent step, the pellets are injection molded, with temperature conditions chosen to minimize the deformation of the created structures. The effect of a compatibilizer, namely, an ABS grafted with maleic anhydride (ABS-g-MA) [3] on the thermomechanical properties and morphology has been investigated

ALKHUDER, A

GERVAIS, Matthieu

GRANDMONTAGNE, A.

GUINAULT, Alain

SOLLOGOUB, Cyrille

English

The significant increase of Waste Electric and Electronic Equipment (WEEE) has led to an important research in upgrading recycled engineering plastics by means of a blending technique. In particular, there is an interest in studying the properties of ABS/PC blends, the two most important components of WEEE, at ABS rich compositions, according to the generation ratio of waste [1]. Since ABS and PC are immiscible, the final properties depend to a large extent on the flow-induced morphology [2]. In order to better control the final blend morphology of injection molded samples, we propose a two-step approach: the first step consists in producing pellets with multilayered structure, using a multilayer coextrusion device. During the second subsequent step, the pellets are injection molded, with temperature conditions chosen to minimize the deformation of the created structures. The effect of a compatibilizer, namely, an ABS grafted with maleic anhydride (ABS-g-MA) [3] on the thermomechanical properties and morphology has been investigated

Gervais, Matthieu

Alkhuder, A

Grandmontagne, A.

Guinault, Alain

Sollogoub, Cyrille

HAL Descartes

Impact on thermomechanical behaviour of a maleic anhydride grafted ABS on ABS/PC multi-layered blends

SAM : Science Arts et Métiers

Science Arts & Métiers (SAM)is an open access repository that collects the work of Arts et Métiers ParisTechresearchers and makes it freely available over the web where possible.This is an author-deposited version published in: http://sam.ensam.euHandle ID: .http://hdl.handle.net/10985/8464To cite this version :Matthieu GERVAIS, A ALKHUDER, A. GRANDMONTAGNE, Alain GUINAULT, CyrilleSOLLOGOUB - Impact on thermomechanical behaviour of a maleic anhydride grafted ABS onABS/PC multi-layered blends - 2013Any correspondence concerning this service should be sent to the repositoryAdministrator : archiveouverte@ensam.euImpact on thermomechanical behaviour of a maleic anhydride grafted ABS on ABS/PC multi-layered blends  M. Gervaisa,b, A. Alkhuderb, A. Grandmontagnea,b, A. Guinaulta,b, C. Sollogouba,b  a PIMM, CNAM/ENSAM, 151 boulevard de l’hopital 75013 Paris, France bP-2AM, CNAM  292, rue Saint Martin – F75003 Paris - France  Email of corresponding author: matthieu.gervais@cnam.fr   The significant increase of Waste Electric and Electronic Equipment (WEEE) has led to an important research in upgrading recycled engineering plastics by means of a blending technique. In particular, there is an interest in studying the properties of ABS/PC blends, the two most important components of WEEE, at ABS rich compositions, according to the generation ratio of waste [1].   Since ABS and PC are immiscible, the final properties depend to a large extent on the flow-induced morphology [2]. In order to better control the final blend morphology of injection molded samples, we propose a two-step approach: the first step consists in producing pellets with multilayered structure, using a multilayer coextrusion device. During the second subsequent step, the pellets are injection molded, with temperature conditions chosen to minimize the deformation of the created structures. The effect of a compatibilizer, namely, an ABS grafted with maleic anhydride (ABS-g-MA) [3] on the thermomechanical properties and morphology has been investigated.     Figure 1. Tan as a function of temperature for ABS/PC blend (70/30 wt%) with and without the addition of ABS-g-MA  1. Barthes, M.-L.; Mantaux, O.; Pedros, M.; Lacoste, E.; Dumon, M. Advances in Polymer Technology 31, (4), 343-353. 2. O-Charoen, N.; Leong, Y. W.; Hamada, H. Polymer Engineering & Science 2008, 48, (4), 786-794. 3. Elmaghor, F.; Zhang, L.; Fan, R.; Li, H. Polymer 2004, 45, (19), 6719-6724. 

Hal-Diderot

SAM;  the Arts et Métiers ParisTech open access repository

Science Arts & Métiers (SAM)
is an open access repository that collects the work of Arts et Métiers ParisTech
researchers and makes it freely available over the web where possible.
This is an author-deposited version published in: https://sam.ensam.eu
Handle ID: .http://hdl.handle.net/10985/8464
To cite this version :
Matthieu GERVAIS, A ALKHUDER, A. GRANDMONTAGNE, Alain GUINAULT, Cyrille
SOLLOGOUB - Impact on thermomechanical behaviour of a maleic anhydride grafted ABS on
ABS/PC multi-layered blends - 2013
Any correspondence concerning this service should be sent to the repository
Administrator : archiveouverte@ensam.eu
Impact on thermomechanical behaviour of a maleic anhydride 
grafted ABS on ABS/PC multi-layered blends 
 
M. Gervaisa,b, A. Alkhuderb, A. Grandmontagnea,b, A. Guinaulta,b, C. Sollogouba,b 
 
a PIMM, CNAM/ENSAM, 151 boulevard de l’hopital 75013 Paris, France 
bP-2AM, CNAM  292, rue Saint Martin – F75003 Paris - France  
Email of corresponding author: matthieu.gervais@cnam.fr 
 
 
The significant increase of Waste Electric and Electronic Equipment 
(WEEE) has led to an important research in upgrading recycled 
engineering plastics by means of a blending technique. In particular, 
there is an interest in studying the properties of ABS/PC blends, the two 
most important components of WEEE, at ABS rich compositions, 
according to the generation ratio of waste [1].   
Since ABS and PC are immiscible, the final properties depend to a 
large extent on the flow-induced morphology [2]. In order to better 
control the final blend morphology of injection molded samples, we 
propose a two-step approach: the first step consists in producing pellets 
with multilayered structure, using a multilayer coextrusion device. During 
the second subsequent step, the pellets are injection molded, with 
temperature conditions chosen to minimize the deformation of the 
created structures. The effect of a compatibilizer, namely, an ABS 
grafted with maleic anhydride (ABS-g-MA) [3] on the thermomechanical 
properties and morphology has been investigated.   
 
 
Figure 1. Tan as a function of temperature for ABS/PC blend (70/30 wt%) with and 
without the addition of ABS-g-MA 
 
1. Barthes, M.-L.; Mantaux, O.; Pedros, M.; Lacoste, E.; Dumon, M. 
Advances in Polymer Technology 31, (4), 343-353. 
2. O-Charoen, N.; Leong, Y. W.; Hamada, H. Polymer Engineering & 
Science 2008, 48, (4), 786-794. 
3. Elmaghor, F.; Zhang, L.; Fan, R.; Li, H. Polymer 2004, 45, (19), 6719-
6724. 


The significant increase of Waste Electric and Electronic Equipment (WEEE) has led to an important research in upgrading recycled engineering plastics by means of a blending technique. In particular, there is an interest in studying the properties of ABS/PC blends, the two most important components of WEEE, at ABS rich compositions, according to the generation ratio of waste [1].  
Since ABS and PC are immiscible, the final properties depend to a large extent on the flow-induced morphology [2]. In order to better control the final blend morphology of injection molded samples, we propose a two-step approach: the first step consists in producing pellets with multilayered structure, using a multilayer coextrusion device. During the second subsequent step, the pellets are injection molded, with temperature conditions chosen to minimize the deformation of the created structures. The effect of a compatibilizer, namely, an ABS grafted with maleic anhydride (ABS-g-MA) [3] on the thermomechanical properties and morphology has been investigated

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Impact on thermomechanical behaviour of a maleic anhydride grafted ABS on ABS/PC multi-layered blends

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