Hybrid composites from waste materials

Journal of Polymers and the Environment

Volumn 18, Issue 1, 2010, Pages 65-70

  Ashori, Alireza ^a  

^a IRANIAN RESEARCH ORGANIZATION FOR SCIENCE AND TECHNOLOGY IROST   (Iran)

Author keywords

Biodegradable; Hybrid composite; Lignocellulosic fibers; Mechanical properties; Waste materials

Indexed keywords

BIOFIBERS; DEGRADATION TEMPERATURES; FIBER ASPECT RATIO; FIBER CONTENTS; FIBER-MATRIX INTERACTION; FLEXURAL MODULUS; HYBRID COMPOSITE; HYBRID COMPOSITES; IN-FIBER; LIGNOCELLULOSIC FIBERS; LIGNOCELLULOSIC MATERIAL; MALEIC ANHYDRIDE GRAFTED POLYPROPYLENE; MORPHOLOGICAL PROPERTIES; NEWSPAPER FIBER; PP MATRIX; REINFORCING ELEMENTS; THERMAL DEGRADATIONS; THERMAL PROPERTIES; THERMAL STABILITY; WASTE MATERIALS; WEIGHT RATIOS; WOOD FLOUR;

ASPECT RATIO; COUPLING AGENTS; DEGRADATION; FIBERS; MALEIC ANHYDRIDE; MATERIALS PROPERTIES; MECHANICAL PROPERTIES; POLYPROPYLENES; REINFORCED PLASTICS; SCANNING ELECTRON MICROSCOPY; THERMODYNAMIC STABILITY; THERMOPLASTICS; WOOD PRODUCTS;

HYBRID MATERIALS;

CELLULOSE; COMPOSITE; FLEXURE; MECHANICAL PROPERTY; MORPHOLOGY; POLYMER; WASTE; WOOD;

COMPOSITES; COUPLING AGENTS; LIGNOCELLULOSE; MALEIC ANHYDRIDE; MECHANICAL PROPERTIES; NEWSPAPERS; POPULUS; SCANNING ELECTRON MICROSCOPY; THERMAL STABILITY; THERMOPLASTICS; WASTES; WOOD FLOUR;

EID: 77953916198     PISSN: 15662543     EISSN: None     Source Type: Journal    
DOI: 10.1007/s10924-009-0155-6     Document Type: Article

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