Thermal and viscoelastic property of epoxy-clay and hybrid inorganic-organic epoxy nanocomposites

Lee, André; Lichtenhan, Joseph D.

doi:10.1002/(sici)1097-4628(19990906)73:10<1993::aid-app18>3.0.co;2-q

Cited by 204 publications

(38 citation statements)

References 27 publications

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“…There are too many papers to cite them all here. Thus some selected papers are cited here [1][2][3][4][5][6][7][8][9]. Although epoxy composite materials have successfully been used for certain structural applications (e.g., airplanes), they suffer from two weaknesses.…”

Section: Introductionsupporting

confidence: 79%

Nanostructured High-Performance Materials Consisting of Bismaleimide and Functional Liquid Crystal Monomer

Han¹

2004

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Public reporting burden for this collection of information is estimated to average 1 hour per response, including the Urne for reviewing instruction data needed, and completing and reviewing this collection of information. DISTRIBUTION / AVAILABILITY STATEMENTApproved for public release. ^Distribution is unlimited. SUPPLEMENTARY NOTES None ABSTRACT .We have synthesized a liquid-crystalline monomer, 12-[4-cyanobiphenyl-4'-oxy] dodecanoic acid (11CN-COOH), and then grafted it onto the DABPA and then cured the 1 lCN-COOH-grafted DABPA with BMPM, yielding BMI resin functionalized with liquid crystal monomer. In so doing, we have elucidated the reaction (cure) mechanism between-1 lCN-COOH-grafted DABPA and BMPM using Fourier transform infrared (FTIR) spectroscopy. Thermal transition temperatures before and after the cure of BMI resin and also functionalized BMI resin were measured using differential scanning calorimetry. Micrographs of BMI resin and also functionalized BMI resin were obtained using optical microscopy. Finally, the mechanical properties of cured BMI and functionalized BMI resins were measured. It has been found that the flexural modulus of functionalized BMI resin is about two times greater than that of neat BMI resin, indicating that the addition of liquid crystalline monomer has enhanced the toughness of BMI resin. SUBJECT TERMS ~Bismaleimide; Nanostructuree Materials; Functionalized BMI Resin

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Section: Introductionsupporting

confidence: 79%

Nanostructured High-Performance Materials Consisting of Bismaleimide and Functional Liquid Crystal Monomer

Han¹

2004

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“…The mechanical properties of epoxy resins can, however, be improved by incorporating inorganic particles [1]. It is well known that particle volume, shape, size, surface characteristics and particle dispersion within the matrix have an influence on the mechanical properties of the composites [2][3][4][5]. Specific surface area can promote stress transfer from matrix to nanoparticles and improve the Young's modulus of polymers to a higher extent than micro-fillers.…”

Section: Introductionmentioning

confidence: 99%

Controversial effects of fumed silica on the curing and thermomechanical properties of epoxy composites

Tarrío-Saavedra

López-Beceiro²,

Naya³

et al. 2010

Express Polym. Lett.

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Abstract. The effect of fumed silica on the curing of a trimethylolpropane epoxy resin was investigated by thermal analysis methods like Differential Scanning Calorimetry (DSC), and Dynamic Mechanical Analysis (DMA). The fumed silica used here is a by-product of the silicon and ferrosilicon industry, consisting of micro and nanosized particles. Both the curing reaction and the properties of the obtained composites were affected by the filler content. Different trends were observed for filler contents above and below the 30 wt%. Up to 30 wt%, the behaviour can be explained as a predominantly agglomeration effect. For 30 wt% and higher filler contents, single particles seem to play a more important role.

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“…In general, hybridization of an organic polymer matrix with inorganic POSS results in improved thermal and mechanical properties along with increase in oxidative and flame resistance. [3][4][5][6][7][8]11 Recently Nanda et al 12 synthesized well dispersed polyurethane/POSS hybrid materials utilizing a solution polymerization process. Ordered morphologies with homogenously distributed POSS domains ($100-150 nm) were observed.…”

Section: Introductionmentioning

confidence: 99%

Surface energetics, dispersion, and nanotribomechanical behavior of POSS/PP hybrid nanocomposites

Misra¹,

Fu²,

Morgan³

2007

J Polym Sci B Polym Phys

107

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Hybrid organic-inorganic polymer nanocomposites incorporating polyhedral oligomeric silsesquioxane (POSS) nanoparticles are of increasing interest for high performance materials applications. Octaisobutyl POSS/polypropylene nanocomposites were prepared at varying POSS concentrations via melt blending. The interplay of POSS molecular geometry, composition, and concentration in relation to the tribological, nanomechanical, surface energy, and bulk properties of the nanocomposites were investigated. Ultra-low friction and enhanced hardness, modulus, and hydrophobicity were observed for the nanocomposite surfaces, with minimal changes in the bulk thermomechanical properties. Parallel AFM, SEM, TEM, and spectroscopic analyses demonstrated significant differences in POSS distribution and aggregation in the surface and the bulk, with preferential segregation of POSS to the surface. Additionally, contact angle studies reveal significant reduction in surface energy and increase in hysteresis with incorporation of POSS nanoparticles. The differences in bulk and surface properties are largely explained by the gradient concentration of POSS in the polymer matrix, driven by POSS/POSS and POSS/polymer interactions.

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Thermal and viscoelastic property of epoxy-clay and hybrid inorganic-organic epoxy nanocomposites

Cited by 204 publications

References 27 publications

Nanostructured High-Performance Materials Consisting of Bismaleimide and Functional Liquid Crystal Monomer

Nanostructured High-Performance Materials Consisting of Bismaleimide and Functional Liquid Crystal Monomer

Controversial effects of fumed silica on the curing and thermomechanical properties of epoxy composites

Surface energetics, dispersion, and nanotribomechanical behavior of POSS/PP hybrid nanocomposites

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