The effects of rattan filler loadings on properties of rattan powder-filled polypropylene composites

The effects of rattan filler loadings on properties of rattan powder-filled polypropylene composites

This study investigates the effects of filler loading on the properties of rattan powder-filled polypropylene composites. The composites were prepared by incorporating rattan powder of average size 180 µm into polypropylene matrix using a Polydrive Thermo Haake internal mixer. Filler loadings of th...

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Bibliographic Details
Main Authors: Nurshamila Shaari Balakrishna, Hanafi Ismail, Nadras Othman
Format: Article
Language:English
Published: North Carolina State University 2012-11-01
Series:BioResources
Subjects:
Rattan filler
Polypropylene
Composite
Processing torque
Mechanical properties
Water absorption
SEM
TGA
Online Access:http://www.ncsu.edu/bioresources/BioRes_07/BioRes_07_4_5677_ShaariBalakrishna_IO_Rattan_Loadings_Prop_PP_Composites_3178.pdf
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spelling doaj-1d4dff2ea0b8464daf24aeaccd60a4c92020-11-25T00:55:19ZengNorth Carolina State UniversityBioResources1930-21262012-11-017456775690The effects of rattan filler loadings on properties of rattan powder-filled polypropylene compositesNurshamila Shaari BalakrishnaHanafi IsmailNadras OthmanThis study investigates the effects of filler loading on the properties of rattan powder-filled polypropylene composites. The composites were prepared by incorporating rattan powder of average size 180 µm into polypropylene matrix using a Polydrive Thermo Haake internal mixer. Filler loadings of the rattan powders ranged between 0 and 40 parts per hundred parts of resin (phr). Mechanical, morphological, and thermal properties were studied. The tensile strength, elongation at tensile failure, and impact strength decreased, while stabilization torque, thermal stability, and water absorption increased with increasing filler loading. Tensile modulus increased with addition of rattan powder and eventually decreased at 40 phr filler loading due to the weakening adhesion between the filler and the matrix. The morphological studies of fractured surfaces using SEM confirmed the deterioration in tensile properties.http://www.ncsu.edu/bioresources/BioRes_07/BioRes_07_4_5677_ShaariBalakrishna_IO_Rattan_Loadings_Prop_PP_Composites_3178.pdfRattan fillerPolypropyleneCompositeProcessing torqueMechanical propertiesWater absorptionSEMTGA
collection DOAJ
language English
format Article
sources DOAJ
author Nurshamila Shaari Balakrishna
Hanafi Ismail
Nadras Othman
spellingShingle Nurshamila Shaari Balakrishna
Hanafi Ismail
Nadras Othman
The effects of rattan filler loadings on properties of rattan powder-filled polypropylene composites
BioResources
Rattan filler
Polypropylene
Composite
Processing torque
Mechanical properties
Water absorption
SEM
TGA
author_facet Nurshamila Shaari Balakrishna
Hanafi Ismail
Nadras Othman
author_sort Nurshamila Shaari Balakrishna
title The effects of rattan filler loadings on properties of rattan powder-filled polypropylene composites
title_short The effects of rattan filler loadings on properties of rattan powder-filled polypropylene composites
title_full The effects of rattan filler loadings on properties of rattan powder-filled polypropylene composites
title_fullStr The effects of rattan filler loadings on properties of rattan powder-filled polypropylene composites
title_full_unstemmed The effects of rattan filler loadings on properties of rattan powder-filled polypropylene composites
title_sort effects of rattan filler loadings on properties of rattan powder-filled polypropylene composites
publisher North Carolina State University
series BioResources
issn 1930-2126
publishDate 2012-11-01
description This study investigates the effects of filler loading on the properties of rattan powder-filled polypropylene composites. The composites were prepared by incorporating rattan powder of average size 180 µm into polypropylene matrix using a Polydrive Thermo Haake internal mixer. Filler loadings of the rattan powders ranged between 0 and 40 parts per hundred parts of resin (phr). Mechanical, morphological, and thermal properties were studied. The tensile strength, elongation at tensile failure, and impact strength decreased, while stabilization torque, thermal stability, and water absorption increased with increasing filler loading. Tensile modulus increased with addition of rattan powder and eventually decreased at 40 phr filler loading due to the weakening adhesion between the filler and the matrix. The morphological studies of fractured surfaces using SEM confirmed the deterioration in tensile properties.
topic Rattan filler
Polypropylene
Composite
Processing torque
Mechanical properties
Water absorption
SEM
TGA
url http://www.ncsu.edu/bioresources/BioRes_07/BioRes_07_4_5677_ShaariBalakrishna_IO_Rattan_Loadings_Prop_PP_Composites_3178.pdf
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