Polypropylene/abaca fiber eco‐composites: Influence of bio‐waste additive on flame retardancy and mechanical properties

This research focused on the fabrication of flame‐retardant green composites by utilizing inexpensive bio‐waste eggshell powder (ESP) as a flame‐retardant additive to polypropylene (PP)/abaca fibers (AF) composites (AF/ESP‐PP). The optimization of AF reinforcement in composites examines various wt%...

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Published inPolymer composites Vol. 42; no. 3; pp. 1356 - 1370
Main Authors Mai Nguyen Tran, Thanh, M. N., Prabhakar, Lee, Dong Woo, Cabo, Maurelio, Jr, Song, Jung‐Il
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.03.2021
Blackwell Publishing Ltd
Subjects
abaca fiber
eggshell powder
flame retardancy
Heat release rate
Infrared analysis
Mechanical properties
Optimization
Polymer matrix composites
Polypropylene
Thermal stability
Thermogravimetric analysis
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Abstract This research focused on the fabrication of flame‐retardant green composites by utilizing inexpensive bio‐waste eggshell powder (ESP) as a flame‐retardant additive to polypropylene (PP)/abaca fibers (AF) composites (AF/ESP‐PP). The optimization of AF reinforcement in composites examines various wt% (5‐20) of fibers in the light of mechanical properties. Fifteen weight percentage of AF reinforcement showing the highest tensile (26 MPa) and flexural (46 MPa) strength compared to the remaining composites. Spectral (Fourier‐transform infrared spectroscopy) and micro (scanning electron microscope) analysis support the improvement of mechanical strength of the composites in connection with the interaction between AF with PP. Besides, different wt% (2, 4, 6, and 8) of ESP were incorporated into the AF/PP composites and examine the thermal and flame‐retardant properties by thermogravimetric analysis, horizontal burn test, and microcalorimetry, respectively. An improvement in thermal stability 9.82 wt% at 700°C, horizontal burn test results and decrement in peak heat release rate to 947 W/g.
AbstractList This research focused on the fabrication of flame‐retardant green composites by utilizing inexpensive bio‐waste eggshell powder (ESP) as a flame‐retardant additive to polypropylene (PP)/abaca fibers (AF) composites (AF/ESP‐PP). The optimization of AF reinforcement in composites examines various wt% (5‐20) of fibers in the light of mechanical properties. Fifteen weight percentage of AF reinforcement showing the highest tensile (26 MPa) and flexural (46 MPa) strength compared to the remaining composites. Spectral (Fourier‐transform infrared spectroscopy) and micro (scanning electron microscope) analysis support the improvement of mechanical strength of the composites in connection with the interaction between AF with PP. Besides, different wt% (2, 4, 6, and 8) of ESP were incorporated into the AF/PP composites and examine the thermal and flame‐retardant properties by thermogravimetric analysis, horizontal burn test, and microcalorimetry, respectively. An improvement in thermal stability 9.82 wt% at 700°C, horizontal burn test results and decrement in peak heat release rate to 947 W/g.
Abstract This research focused on the fabrication of flame‐retardant green composites by utilizing inexpensive bio‐waste eggshell powder (ESP) as a flame‐retardant additive to polypropylene (PP)/abaca fibers (AF) composites (AF/ESP‐PP). The optimization of AF reinforcement in composites examines various wt% (5‐20) of fibers in the light of mechanical properties. Fifteen weight percentage of AF reinforcement showing the highest tensile (26 MPa) and flexural (46 MPa) strength compared to the remaining composites. Spectral (Fourier‐transform infrared spectroscopy) and micro (scanning electron microscope) analysis support the improvement of mechanical strength of the composites in connection with the interaction between AF with PP. Besides, different wt% (2, 4, 6, and 8) of ESP were incorporated into the AF/PP composites and examine the thermal and flame‐retardant properties by thermogravimetric analysis, horizontal burn test, and microcalorimetry, respectively. An improvement in thermal stability 9.82 wt% at 700°C, horizontal burn test results and decrement in peak heat release rate to 947 W/g.
Author Lee, Dong Woo
Cabo, Maurelio, Jr
Song, Jung‐Il
M. N., Prabhakar
Mai Nguyen Tran, Thanh
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Snippet This research focused on the fabrication of flame‐retardant green composites by utilizing inexpensive bio‐waste eggshell powder (ESP) as a flame‐retardant...
Abstract This research focused on the fabrication of flame‐retardant green composites by utilizing inexpensive bio‐waste eggshell powder (ESP) as a...
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SubjectTerms abaca fiber
eggshell powder
flame retardancy
Heat release rate
Infrared analysis
Mechanical properties
Optimization
Polymer matrix composites
Polypropylene
Thermal stability
Thermogravimetric analysis
Title Polypropylene/abaca fiber eco‐composites: Influence of bio‐waste additive on flame retardancy and mechanical properties
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fpc.25906
https://www.proquest.com/docview/2498336523
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