Study on dispersed phase size distribution in combined-blown converter with water modeling;

Power-function representation of particle size distribution for dispersed phase in water modeling of converter

Based on the introduction of present formulation about dispersed particle dimension and coalescence probability of dispersed phase, it can be concluded that the combination of theory and experiment is an effective method of obtaining phase dimension of immiscible polymer blends.

A recent use of the research achievement of reinforcing by on site composite technology was reviewed in this article,with a description made mainly with emphasis on the several fiber formation effecting factors,such as compatibility of the continuous phase and dispersion phase in the blend,viscosity ratio,interfa-cial tension,p.

The development process and reinforcing mechanism of the nanodispersion phase structure in the insitu polymerized nanoPZDMA/POE were investigated by microscopy and thermogravimetric analysis and the dependence of the stressstrain behavior and tensile strength of PZDMA/POE composite on the temperature was also studied.

The droplet size and distribution of dispersion phase for emulsion explosives matrix were tested by laser particle analyzer.

Nanocrystalline Pb powders were prepared, starting from Pb granules, by solution dispersion method in paraffin oil, using polyglycol as a protecting agent and oxidation inhibitor.

Oil soluble tin nanoparticles with average diameter of 40 nm have been successfully prepared by solution dispersion method.