David B. Curliss scite author profile

The role of various quaternary ammonium-modified montmorillonites in epoxy/diamine nanocomposite formation is examined to further refine the criteria for selection of organic modifiers necessary to enable fabrication of thermoset resins containing nanoscale dispersions of inorganic phases. Utilization of a hydroxyl-substituted quaternary ammonium modifier affords flexibility to combine both catalytic functionality, which increases the intragallery reaction rate, with enhanced miscibility toward both reagents. The rheological implications of these processing techniques are discussed with regards to using thermoset nanocomposites as a matrix in conventional fiber reinforced composites. The use of a low-boiling solvent to enhance mixability and processability of the initial mixtures is shown not to alter the structure or properties of the final nanocomposite. Also, the use of autoclave techniques enabled fabrication of high-quality specimens containing up to 20 wt % organically modified layered silicate (OLS). Finally, exfoliated and partially exfoliated epoxy/diamine nanocomposites were produced with enhanced heat-distortion temperature and increased flammability resistance.

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Processing and morphological development of montmorillonite epoxy nanocomposites

Chen

Curliss

2003

Nanotechnology

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Polymer-layered silicate nanocomposites are new hybrid polymeric materials with nanometre thick layered silicates that generally show improvement over the properties of polymeric materials. This paper reports that synthesized organolayered silicates can be used to make epoxy nanocomposites. The nanocomposites were characterized by wide-angle x-ray diffraction, small-angle x-ray scattering (SAXS) and transmission electron microscopy. The studies on in situ SAXS and differential scanning calorimetry were carried out to gain an understanding of the morphological development of a nanocomposite during processing. The storage and glass transition temperature of the nanocomposite were also studied by dynamic mechanical analysis.

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Isochoric and isobaric glass formation: Similarities and differences

Colucci

McKenna

Filliben

et al. 1997

J. Polym. Sci. B Polym. Phys.

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Epoxy layered-silicate nanocomposites

Chen

Khobaib

Curliss

2003

Progress in Organic Coatings

116

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David B. Curliss

Thermoset-Layered Silicate Nanocomposites. Quaternary Ammonium Montmorillonite with Primary Diamine Cured Epoxies

Processing and morphological development of montmorillonite epoxy nanocomposites

Isochoric and isobaric glass formation: Similarities and differences

Epoxy layered-silicate nanocomposites

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