Mechanical properties of glass fiber and liquid crystalline polymer reinforced polypropylene hybrid composites toughened with elastomers

A group of short glass fiber (SGF) and liquid crystalline polymer (LCP) reinforced polypropylene (PP) hybrid composites and toughened with maleic anhydride (MA)‐grafted styrene–ethylene butylene–styrene (SEBS‐g‐MA) elastomers with controlled morphology were designed and injection molded. MA was also...

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Published inJournal of applied polymer science Vol. 94; no. 4; pp. 1539 - 1546
Main Authors Tjong, S. C., Xu, S. A.
Format Journal Article
LanguageEnglish
Published Hoboken Wiley Subscription Services, Inc., A Wiley Company 15.11.2004
Wiley
Subjects
Applied sciences
compatibility
elastomers
Exact sciences and technology
fibers
liquid crystalline polymer
Physicochemistry of polymers
Polymer industry, paints, wood
polypropylene (PP)
Technology of polymers
Short fiber
liquid crystalline polymer
Polymer blends
fibers
SEBS
Propylene polymer
Elastomer
Mechanical properties
Compatibilizer
Hybrid composite
Tensile strength
Injection mold
Liquid crystal polymers
elastomers
Morphology
Glass fiber
compatibility
polypropylene (PP)
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Abstract A group of short glass fiber (SGF) and liquid crystalline polymer (LCP) reinforced polypropylene (PP) hybrid composites and toughened with maleic anhydride (MA)‐grafted styrene–ethylene butylene–styrene (SEBS‐g‐MA) elastomers with controlled morphology were designed and injection molded. MA was also grafted to PP (PP‐g‐MA) in which the mPP blend was prepared by compounding 95% PP and 5% PP‐g‐MA. The matrix of hybrid composites consisted of 80/20 (wt %) mPP/SEBS‐g‐MA. The fibrillation of LCP minor phase depended on the injection‐molded temperatures. The effects of LCP and SGF hybridization on the morphology and mechanical characteristics of quaternary hybrid composites were studied. Tensile measurements showed that hybridization of SGF and LCP fibrils were beneficial in improving the tensile strength and stiffness of hybrid composites prepared at 265 and 285°C. This was attributed to the fact that LCP minor phase can deform into fine and long fibrils at these temperatures. However, LCP minor phase was deformed to nonuniform ellipsoids at 220°C, leading to poorer mechanical performance of the hybrid composites. The correlation between the processing temperature and compatibilizer with the structure–mechanical property of hybrid composites is discussed. © 2004 Wiley Periodicals, Inc. J Appl Polym Sci 94: 1539–1546, 2004
AbstractList A group of short glass fiber (SGF) and liquid crystalline polymer (LCP) reinforced polypropylene (PP) hybrid composites and toughened with maleic anhydride (MA)‐grafted styrene–ethylene butylene–styrene (SEBS‐g‐MA) elastomers with controlled morphology were designed and injection molded. MA was also grafted to PP (PP‐g‐MA) in which the mPP blend was prepared by compounding 95% PP and 5% PP‐g‐MA. The matrix of hybrid composites consisted of 80/20 (wt %) mPP/SEBS‐g‐MA. The fibrillation of LCP minor phase depended on the injection‐molded temperatures. The effects of LCP and SGF hybridization on the morphology and mechanical characteristics of quaternary hybrid composites were studied. Tensile measurements showed that hybridization of SGF and LCP fibrils were beneficial in improving the tensile strength and stiffness of hybrid composites prepared at 265 and 285°C. This was attributed to the fact that LCP minor phase can deform into fine and long fibrils at these temperatures. However, LCP minor phase was deformed to nonuniform ellipsoids at 220°C, leading to poorer mechanical performance of the hybrid composites. The correlation between the processing temperature and compatibilizer with the structure–mechanical property of hybrid composites is discussed. © 2004 Wiley Periodicals, Inc. J Appl Polym Sci 94: 1539–1546, 2004
A group of short glass fiber (SGF) and liquid crystalline polymer (LCP) reinforced polypropylene (PP) hybrid composites and toughened with maleic anhydride (MA)‐grafted styrene–ethylene butylene–styrene (SEBS‐ g ‐MA) elastomers with controlled morphology were designed and injection molded. MA was also grafted to PP (PP‐ g ‐MA) in which the mPP blend was prepared by compounding 95% PP and 5% PP‐ g ‐MA. The matrix of hybrid composites consisted of 80/20 (wt %) mPP/SEBS‐ g ‐MA. The fibrillation of LCP minor phase depended on the injection‐molded temperatures. The effects of LCP and SGF hybridization on the morphology and mechanical characteristics of quaternary hybrid composites were studied. Tensile measurements showed that hybridization of SGF and LCP fibrils were beneficial in improving the tensile strength and stiffness of hybrid composites prepared at 265 and 285°C. This was attributed to the fact that LCP minor phase can deform into fine and long fibrils at these temperatures. However, LCP minor phase was deformed to nonuniform ellipsoids at 220°C, leading to poorer mechanical performance of the hybrid composites. The correlation between the processing temperature and compatibilizer with the structure–mechanical property of hybrid composites is discussed. © 2004 Wiley Periodicals, Inc. J Appl Polym Sci 94: 1539–1546, 2004
A group of short glass fiber (SGF) and liquid crystalline polymer (LCP) reinforced polypropylene (PP) hybrid composites and toughened with maleic anhydride (MA)-grafted styrene-ethylene butylene-styrene (SEBS-g-MA) elastomers with controlled morphology were designed and injection molded. MA was also grafted to PP (PP-g-MA) in which the mPP blend was prepared by compounding 95% PP and 5% PP-g-MA. The matrix of hybrid composites consisted of 80/20 (wt %) mPP/SEBS-g-MA. The fibrillation of LCP minor phase depended on the injection-molded temperatures. The effects of LCP and SGF hybridization on the morphology and mechanical characteristics of quaternary hybrid composites were studied. Tensile measurements showed that hybridization of SGF and LCP fibrils were beneficial in improving the tensile strength and stiffness of hybrid composites prepared at 265 and 285DGC. This was attributed to the fact that LCP minor phase can deform into fine and long fibrils at these temperatures. However, LCP minor phase was deformed to nonuniform ellipsoids at 220DGC, leading to poorer mechanical performance of the hybrid composites. The correlation between the processing temperature and compatibilizer with the structure-mechanical property of hybrid composites is discussed.
Author Xu, S. A.
Tjong, S. C.
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Issue 4
Keywords Short fiber
liquid crystalline polymer
Polymer blends
fibers
SEBS
Propylene polymer
Elastomer
Mechanical properties
Compatibilizer
Hybrid composite
Tensile strength
Injection mold
Liquid crystal polymers
elastomers
Morphology
Glass fiber
compatibility
polypropylene (PP)
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Snippet A group of short glass fiber (SGF) and liquid crystalline polymer (LCP) reinforced polypropylene (PP) hybrid composites and toughened with maleic anhydride...
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SubjectTerms Applied sciences
compatibility
elastomers
Exact sciences and technology
fibers
liquid crystalline polymer
Physicochemistry of polymers
Polymer industry, paints, wood
polypropylene (PP)
Technology of polymers
Title Mechanical properties of glass fiber and liquid crystalline polymer reinforced polypropylene hybrid composites toughened with elastomers
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