Improving the flexural and thermomechanical properties of amino-functionalized carbon nanotube/epoxy composites by using a pre-curing treatment

Prolongo, S.G.; Gude, M.R.; Ureña, A.

doi:10.1016/j.compscitech.2011.01.028

Cited by 70 publications

(53 citation statements)

References 20 publications

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“…According to the dispersion state of the CNTs, different E 0 and loss modulus (E 00 ) behavior are expected (Hatakeyama and Quinn 1999;Li et al 2000;Mitchell et al 2002). Some studies report strong effect in the E 0 on the glassy state, due to improved interaction between the nanotubes and the EP matrix, which reduces the mobility of the EP matrix around the nanotubes and leads to an observed increase in thermal .7 ILSS before and after exposure for the unmodified and CNT-modified CFRP specimens reproduced after Barkoula et al (2009) stability (Valentini et al 2003;Gojny and Schulte 2004;Fidelusa et al 2005;Chen et al 2008;Prolongo et al 2011). A slight effect was measured on the rubbery state Prolongo et al 2011).…”

Section: Hygrothermal Response Of Carbon Nanotube Hybrid Aerospace Comentioning

confidence: 88%

“…Some studies report strong effect in the E 0 on the glassy state, due to improved interaction between the nanotubes and the EP matrix, which reduces the mobility of the EP matrix around the nanotubes and leads to an observed increase in thermal .7 ILSS before and after exposure for the unmodified and CNT-modified CFRP specimens reproduced after Barkoula et al (2009) stability (Valentini et al 2003;Gojny and Schulte 2004;Fidelusa et al 2005;Chen et al 2008;Prolongo et al 2011). A slight effect was measured on the rubbery state Prolongo et al 2011). It was stated that the nanotube content was not sufficient (0.5 wt.%) to lead to any reinforcement since the molecular motion and the amplitude of this motion are very high and the macromolecule is not practically in contact with particles above the T g .…”

Section: Hygrothermal Response Of Carbon Nanotube Hybrid Aerospace Comentioning

confidence: 95%

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Environmental Degradation of Carbon Nanotube Hybrid Aerospace Composites

Barkoula

2012

Solid Mechanics and Its Applications

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This chapter focuses on the environmental response of carbon fibre-reinforced epoxy composites, where the matrix has been modified with carbon nanotubes. These newly developed hybrid aerospace systems have been recently introduced as alternatives to conventional high performance polymer composites due to their improved mechanical properties, toughness and damage sensing abilities as discussed in detail in previous chapters. First an attempt is made to outline the conditions that lead to environmental degradation specifically in aerospace environments. Next to that the response of typical aerospace composites to these environments is discussed. Following, the benefits and challenges in using hybrid aerospace composites in in-service conditions is presented. The degradation of hybrid composites due to exposure on hydro/hygrothermal loadings and galvanic corrosion is presented based on preliminary results. In this section, the focus is on epoxy based composites reinforced with carbon fibres. Matrix modification of these systems is provided by the addition of carbon nanotubes.

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Section: Hygrothermal Response Of Carbon Nanotube Hybrid Aerospace Comentioning

confidence: 88%

Section: Hygrothermal Response Of Carbon Nanotube Hybrid Aerospace Comentioning

confidence: 95%

Environmental Degradation of Carbon Nanotube Hybrid Aerospace Composites

Barkoula

2012

Solid Mechanics and Its Applications

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“…Field emission gun SEM (FEG-SEM) micrographs showed that the degree of dispersion achieved for the pre-cured samples was better than that for the untreated samples [120].…”

Section: Solution Processingmentioning

confidence: 97%

“…Prolongo et al [120] studied the flexural properties of epoxy/amino-CNT composites prepared using a pre-curing treatment. As shown in Fig.…”

Section: Mechanical Propertiesmentioning

confidence: 99%

“…It is known that the mechanical performance of epoxy/CNT composites strongly depends on the uniformity of nanotube dispersion within the polymer matrix and the strong interfacial interactions between the two components [95,96,120]. It has been shown that functionalized CNTs are more readily dispersed in an epoxy matrix and have better interfacial interactions, which is beneficial for improving the properties of the composites [105].…”

Section: Mechanical Propertiesmentioning

confidence: 99%

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Surface Modification of Carbon Nanotubes for High-Performance Polymer Composites

Park¹,

Lee²,

Jin³

2015

Handbook of Polymer Nanocomposites. Processing, Performance and Application

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Creep performance of CNT reinforced glass fiber/epoxy composites: Roles of temperature and stress

Nomula

Rathore

Ray

et al. 2019

J of Applied Polymer Sci

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Carbon nanotubes (CNTs) have been emerged as a potential nanofiller to reinforce polymeric materials to improve their mechanical properties, like strength and modulus. However, time‐dependent deformation of such materials under a constant load and elevated temperature is a matter of concern for long‐term durability of these materials. The present article primarily demonstrates the effects of creep temperature and stress on the reinforcement efficiency of CNT in a glass fiber/epoxy (GE) composite. Two types of materials were investigated in this study—GE which was used as a control material, as well as CNT embedded GE composite. To elucidate the impact of CNT on the long‐term durability of GE composite, creep tests have been performed at different temperatures (50, 80, and 110 °C) under bending loading. As applied stress has also significant contribution toward the elevated creep deformation of materials, creep tests have also been carried out under different stresses (5, 10, and 40 MPa). The strength of the CNT‐GE composite exhibited 8.7 and 18.3% higher than that of control GE composite under tensile and bending load, respectively. Results suggest CNT reinforcement to be beneficial for low temperature applications, both in terms of creep strain and strain rate. © 2019 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2019, 136, 47674.

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Improving the flexural and thermomechanical properties of amino-functionalized carbon nanotube/epoxy composites by using a pre-curing treatment

Cited by 70 publications

References 20 publications

Environmental Degradation of Carbon Nanotube Hybrid Aerospace Composites

Environmental Degradation of Carbon Nanotube Hybrid Aerospace Composites

Surface Modification of Carbon Nanotubes for High-Performance Polymer Composites

Creep performance of CNT reinforced glass fiber/epoxy composites: Roles of temperature and stress

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