Conductive polymer composites made from polypropylene and recycled graphite scrap

Electric Discharge Machining (EDM) process uses electrodes made from graphite that wear out over time and are turned into scrap. In this research, EDM electrode scraps were recycled and turned into graphite powder (rGP). This rGP was used as a conductive filler to produce conductive polymer composit...

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Main Authors: Tong, Dylan Jia Yee, Koay, Seong Chun, Chan, Ming Yeng, Tshai, Kim Yeow, Ong, Thai Kiat, Buys, Yose Fachmi
Format: Article
Published: Penerbit Universiti Sains Malaysia 2021
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Online Access:http://eprints.um.edu.my/34893/
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spelling my.um.eprints.348932022-05-09T03:20:57Z http://eprints.um.edu.my/34893/ Conductive polymer composites made from polypropylene and recycled graphite scrap Tong, Dylan Jia Yee Koay, Seong Chun Chan, Ming Yeng Tshai, Kim Yeow Ong, Thai Kiat Buys, Yose Fachmi TP Chemical technology Electric Discharge Machining (EDM) process uses electrodes made from graphite that wear out over time and are turned into scrap. In this research, EDM electrode scraps were recycled and turned into graphite powder (rGP). This rGP was used as a conductive filler to produce conductive polymer composite (CPC) material by combining it with polypropylene (PP) resin via melt compounding and compression moulding processes. The percolation threshold of this composite material changed when 30 wt% of rGP was added, whereby the insulative material changed became antistatic. The composite was able to achieve surface resistivity as low as 10(5) ohm/sq. However, the addition of higher rGP content deteriorated the tensile properties of composite, whereby the tensile strength of composite significantly decreased as compared to neat PP. The results also showed that the tensile modulus of this composite became higher, and the material became more brittle as compared to neat PP. However, the PP/rGP composite with 50 wt% filler content reduced the tensile modulus due to plasticising effect caused by the agglomeration of rGP. The addition of high filler content on PP/rGP composite also caused an increase in processing torque. This was due to the restriction of rGP particles to the melt flow of molten PP. The morphological analysis found that the PP/rGP composites with higher amounts of filler content were highly agglomerated and formed conductivity paths within the PP matrix. the increase of rGP content highly improved the thermal stability of composite. The findings of this study show that the rGP has the potential to be used as a conductive filler for producing conductive composite material. Penerbit Universiti Sains Malaysia 2021 Article PeerReviewed Tong, Dylan Jia Yee and Koay, Seong Chun and Chan, Ming Yeng and Tshai, Kim Yeow and Ong, Thai Kiat and Buys, Yose Fachmi (2021) Conductive polymer composites made from polypropylene and recycled graphite scrap. Journal of Physical Science, 32 (3). pp. 31-44. ISSN 1675-3402, DOI https://doi.org/10.21315/jps2021.32.3.3 <https://doi.org/10.21315/jps2021.32.3.3>. 10.21315/jps2021.32.3.3
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic TP Chemical technology
spellingShingle TP Chemical technology
Tong, Dylan Jia Yee
Koay, Seong Chun
Chan, Ming Yeng
Tshai, Kim Yeow
Ong, Thai Kiat
Buys, Yose Fachmi
Conductive polymer composites made from polypropylene and recycled graphite scrap
description Electric Discharge Machining (EDM) process uses electrodes made from graphite that wear out over time and are turned into scrap. In this research, EDM electrode scraps were recycled and turned into graphite powder (rGP). This rGP was used as a conductive filler to produce conductive polymer composite (CPC) material by combining it with polypropylene (PP) resin via melt compounding and compression moulding processes. The percolation threshold of this composite material changed when 30 wt% of rGP was added, whereby the insulative material changed became antistatic. The composite was able to achieve surface resistivity as low as 10(5) ohm/sq. However, the addition of higher rGP content deteriorated the tensile properties of composite, whereby the tensile strength of composite significantly decreased as compared to neat PP. The results also showed that the tensile modulus of this composite became higher, and the material became more brittle as compared to neat PP. However, the PP/rGP composite with 50 wt% filler content reduced the tensile modulus due to plasticising effect caused by the agglomeration of rGP. The addition of high filler content on PP/rGP composite also caused an increase in processing torque. This was due to the restriction of rGP particles to the melt flow of molten PP. The morphological analysis found that the PP/rGP composites with higher amounts of filler content were highly agglomerated and formed conductivity paths within the PP matrix. the increase of rGP content highly improved the thermal stability of composite. The findings of this study show that the rGP has the potential to be used as a conductive filler for producing conductive composite material.
format Article
author Tong, Dylan Jia Yee
Koay, Seong Chun
Chan, Ming Yeng
Tshai, Kim Yeow
Ong, Thai Kiat
Buys, Yose Fachmi
author_facet Tong, Dylan Jia Yee
Koay, Seong Chun
Chan, Ming Yeng
Tshai, Kim Yeow
Ong, Thai Kiat
Buys, Yose Fachmi
author_sort Tong, Dylan Jia Yee
title Conductive polymer composites made from polypropylene and recycled graphite scrap
title_short Conductive polymer composites made from polypropylene and recycled graphite scrap
title_full Conductive polymer composites made from polypropylene and recycled graphite scrap
title_fullStr Conductive polymer composites made from polypropylene and recycled graphite scrap
title_full_unstemmed Conductive polymer composites made from polypropylene and recycled graphite scrap
title_sort conductive polymer composites made from polypropylene and recycled graphite scrap
publisher Penerbit Universiti Sains Malaysia
publishDate 2021
url http://eprints.um.edu.my/34893/
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