Preparation of vertically aligned carbon nanotube arrays grown onto carbon fiber fabric and evaluating its wettability on effect of composite

Preparation of vertically aligned carbon nanotube arrays grown onto carbon fiber fabric and evaluating its wettability on effect of composite

► Aligned carbon nanotubes were uniformly grown onto the carbon fiber fabric. ► The carbon nanotube-grafted carbon fiber shows a great hydrophobicity over 145. ► No obvious mechanical properties of carbon fiber were observed after CNT growth. ► A nearly 110% increase of interfacial shear strength ha...

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Veröffentlicht in:Applied surface science 2011-11, Vol.258 (3), p.1069-1076
Hauptverfasser: An, Feng, Lu, Chunxiang, Guo, Jinhai, He, Shuqing, Lu, Huibin, Yang, Yu
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Sprache:eng
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Arrays
Carbon
Carbon fiber
Carbon fibers
Carbon nanotube
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Contact angle
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Fabrics
Fibers
Interfacial shear strength
Nanomaterials
Nanostructure
Physics
Surface energy
Wettability
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container_end_page 1076
container_issue 3
container_start_page 1069
container_title Applied surface science
container_volume 258
creator An, Feng
Lu, Chunxiang
Guo, Jinhai
He, Shuqing
Lu, Huibin
Yang, Yu
description ► Aligned carbon nanotubes were uniformly grown onto the carbon fiber fabric. ► The carbon nanotube-grafted carbon fiber shows a great hydrophobicity over 145. ► No obvious mechanical properties of carbon fiber were observed after CNT growth. ► A nearly 110% increase of interfacial shear strength has been identified. Vertically aligned carbon nanotube (CNT) arrays have been grown onto the carbon fiber fabric using a catalytic chemical vapor deposition (CCVD) method. The as-synthesized CNT arrays are about 20μm in height, and the nanotube has a mean inner and outer diameter of 2.6nm, 5.5nm, respectively. The CNT-grafted carbon fabric shows a hydrophobic property with a contact angle over 145°, and the single CNT-grafted carbon fiber shows a sharp increase of dynamic contact angle in de-ionized water from original 71.70° to about 103°, but a little increase does in diiodomethane or E-51 epoxy resin. However, the total surface energy of carbon nanotube-grafted carbon fiber is almost as same as that of as-received carbon fiber. After CNTs growth, single fiber tensile tests indicated a slight tensile strength degradation within 10% for all different lengths of fibers, while the fiber modulus has not been significantly damaged. Compared with the as-received carbon fibers, a nearly 110% increase of interfacial shear strength (IFSS) from 65 to 135MPa has been identified by single fiber pull-out tests for the micro-droplet composite, which is reinforced by as-received carbon fiber or CNT-grafted carbon fiber.
doi_str_mv 10.1016/j.apsusc.2011.09.003
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Vertically aligned carbon nanotube (CNT) arrays have been grown onto the carbon fiber fabric using a catalytic chemical vapor deposition (CCVD) method. The as-synthesized CNT arrays are about 20μm in height, and the nanotube has a mean inner and outer diameter of 2.6nm, 5.5nm, respectively. The CNT-grafted carbon fabric shows a hydrophobic property with a contact angle over 145°, and the single CNT-grafted carbon fiber shows a sharp increase of dynamic contact angle in de-ionized water from original 71.70° to about 103°, but a little increase does in diiodomethane or E-51 epoxy resin. However, the total surface energy of carbon nanotube-grafted carbon fiber is almost as same as that of as-received carbon fiber. After CNTs growth, single fiber tensile tests indicated a slight tensile strength degradation within 10% for all different lengths of fibers, while the fiber modulus has not been significantly damaged. 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subjects Arrays
Carbon
Carbon fiber
Carbon fibers
Carbon nanotube
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Contact angle
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Fabrics
Fibers
Interfacial shear strength
Nanomaterials
Nanostructure
Physics
Surface energy
Wettability
title Preparation of vertically aligned carbon nanotube arrays grown onto carbon fiber fabric and evaluating its wettability on effect of composite
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