Runzhe Kan scite author profile

Runzhe Kan

2Publications

1Citation Statement Received

31Citation Statements Given

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Beijing Institute of Technology

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Studies on aluminum powder combustion in detonation environment

et al. 2022

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The combustion mechanism of aluminum particles in a detonation environment characterized by high temperature (in unit 103 K), high pressure (in unit GPa), and high-speed motion (in units km/s) was studied, and a combustion model of the aluminum particles in detonation environment was established. Based on this model, a combustion control equation for aluminum particles in detonation environment was obtained. It can be seen from the control equation that the burning time of aluminum particle is mainly affected by the particle size, system temperature, and diffusion coefficient. The calculation result shows that a higher system temperature, larger diffusion coefficient, and smaller particle size lead to a faster burn rate and shorter burning time for aluminum particles. After considering the particle size distribution characteristics of aluminum powder, the application of the combustion control equation was extended from single aluminum particles to nonuniform aluminum powder, and the calculated time corresponding to the peak burn rate of aluminum powder was in good agreement with the experimental electrical conductivity results. This equation can quantitatively describe the combustion behavior of aluminum powder in different detonation environments and provides technical means for quantitative calculation of the aluminum powder combustion process in detonation environment.

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Effect of afterburning effect of aluminum powder on shockwave and bubble behavior of CL-20 explosive in deep-water explosion

Kan

Nie

Song³

et al. 2022

Journal of Energetic Materials

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Runzhe Kan

Studies on aluminum powder combustion in detonation environment

Effect of afterburning effect of aluminum powder on shockwave and bubble behavior of CL-20 explosive in deep-water explosion

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