Hybrid multi-scale basalt fiber-epoxy composite laminate reinforced with Electrospun polyurethane nanofibers containing carbon nanotubes

Subagia, IDGA; Jiang, Z; Tijing, LD; Kim, Y; Kim, CS; Lim, JK; Shon, HK

Hybrid multi-scale basalt fiber-epoxy composite laminate reinforced with Electrospun polyurethane nanofibers containing carbon nanotubes

Subagia, IDGA Jiang, Z Tijing, LD

Kim, Y Kim, CS Lim, JK Shon, HK

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Publication Type:: Journal Article
Citation:: Fibers and Polymers, 2014, 15 (6), pp. 1295 - 1302
Issue Date:: 2014-06-01

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Field	Value	Language
dc.contributor.author	Subagia, IDGA	en_US
dc.contributor.author	Jiang, Z	en_US
dc.contributor.author	Tijing, LD https://orcid.org/0000-0001-9398-6355	en_US
dc.contributor.author	Kim, Y	en_US
dc.contributor.author	Kim, CS	en_US
dc.contributor.author	Lim, JK	en_US
dc.contributor.author	Shon, HK https://orcid.org/0000-0002-3777-7169	en_US
dc.date.issued	2014-06-01	en_US
dc.identifier.citation	Fibers and Polymers, 2014, 15 (6), pp. 1295 - 1302	en_US
dc.identifier.issn	1229-9197	en_US
dc.identifier.uri	http://hdl.handle.net/10453/123112
dc.description.abstract	In this study, we report the fabrication and evaluation of a hybrid multi-scale basalt fiber/epoxy composite laminate reinforced with layers of electrospun carbon nanotube/polyurethane (CNT/PU) nanofibers. Electrospun polyurethane mats containing 1, 3 and 5 wt% carbon nanotubes (CNTs) were interleaved between layers of basalt fibers laminated with epoxy through vacuum-assisted resin transfer molding (VARTM) process. The strength and stiffness of composites for each configuration were tested by tensile and flexural tests, and SEM analysis was conducted to observe the morphology of the composites. The results showed increase in tensile strength (4-13 %) and tensile modulus (6-20 %), and also increase in flexural strength (6.5-17.3 %) and stiffness of the hybrid composites with the increase of CNT content in PU nanofibers. The use of surfactant to disperse CNTs in the electrospun PU reinforcement resulted to the highest increase in both tensile and flexural properties, which is attributed to the homogeneous dispersion of CNTs in the PU nanofibers and the high surface area of the nanofibers themselves. Here, the use of multi-scale reinforcement fillers with good and homogeneous dispersion for epoxy-based laminates showed increased mechanical performance of the hybrid composite laminates. © 2014 The Korean Fiber Society and Springer Science+Business Media Dordrecht.	en_US
dc.relation.ispartof	Fibers and Polymers	en_US
dc.relation.isbasedon	10.1007/s12221-014-1295-4	en_US
dc.subject.classification	Polymers	en_US
dc.title	Hybrid multi-scale basalt fiber-epoxy composite laminate reinforced with Electrospun polyurethane nanofibers containing carbon nanotubes	en_US
dc.type	Journal Article
utslib.citation.volume	6	en_US
utslib.citation.volume	15	en_US
utslib.for	0303 Macromolecular and Materials Chemistry	en_US
pubs.embargo.period	Not known	en_US
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology/School of Civil and Environmental Engineering
pubs.organisational-group	/University of Technology Sydney/Strength - CTWW - Centre for Technology in Water and Wastewater Treatment
utslib.copyright.status	closed_access
pubs.issue	6	en_US
pubs.publication-status	Published	en_US
pubs.volume	15	en_US

Abstract:

In this study, we report the fabrication and evaluation of a hybrid multi-scale basalt fiber/epoxy composite laminate reinforced with layers of electrospun carbon nanotube/polyurethane (CNT/PU) nanofibers. Electrospun polyurethane mats containing 1, 3 and 5 wt% carbon nanotubes (CNTs) were interleaved between layers of basalt fibers laminated with epoxy through vacuum-assisted resin transfer molding (VARTM) process. The strength and stiffness of composites for each configuration were tested by tensile and flexural tests, and SEM analysis was conducted to observe the morphology of the composites. The results showed increase in tensile strength (4-13 %) and tensile modulus (6-20 %), and also increase in flexural strength (6.5-17.3 %) and stiffness of the hybrid composites with the increase of CNT content in PU nanofibers. The use of surfactant to disperse CNTs in the electrospun PU reinforcement resulted to the highest increase in both tensile and flexural properties, which is attributed to the homogeneous dispersion of CNTs in the PU nanofibers and the high surface area of the nanofibers themselves. Here, the use of multi-scale reinforcement fillers with good and homogeneous dispersion for epoxy-based laminates showed increased mechanical performance of the hybrid composite laminates. © 2014 The Korean Fiber Society and Springer Science+Business Media Dordrecht.

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http://hdl.handle.net/10453/123112