Abstract
Silica nanoparticles for polymer nanocomposites are made by oxidation of hexamethyldisiloxane (HMDSO) in methane/oxygen diffusion flames. The flame temperature is measured by in-situ Fourier transform infrared (FTIR) spectroscopy while the degree of agglomeration of the product powder is quantitatively determined by ultra small angle X-ray scattering (USAXS) and is confirmed by transmission electron microscopy (TEM). Precisely controlled, non-agglomerated silica particles having an average primary particle diameter of 18–85 nm, as determined by N 2 adsorption and TEM, are made at low silica production rates of 9 g/h or at low O 2 flow rates at silica production rates of 17 g/h, while smaller and highly agglomerated particles are made at high O 2 flow rates at silica production rates of 17 g/h. The differences in morphology result from the completion of gas-to-particle conversion and from the onset of steep cooling in the flames that determines the duration of full coalescence. Nanocomposites with dimethylacrylate polymers are made using non-agglomerated silica particles and compared to the ones made with commercially available silicas.
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