Scholars@Duke publication: Size of "hot spots" in impact explosion of exothermic materials

Size of "hot spots" in impact explosion of exothermic materials

Publication , Journal Article

Friedman, MH

Published in: Faraday Society -- Transactions

1963

Research based on work relating to solid propellants; hot spot is represented by mathematical model as rectangular temperature spike in infinitely large sample of reactant; consequent differential equation is integrated numerically and results are correlated by simpler theoretical model; prediction of experimental times to explosion.

Duke Scholars

Author Morton Friedman Biomedical Engineering

Published In

Faraday Society -- Transactions

Publication Date

1963

Volume

Issue

488

Start / End Page

1865 / 1873

Citation

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Friedman, M. H. (1963). Size of "hot spots" in impact explosion of exothermic materials. Faraday Society -- Transactions, 59(488), 1865–1873.

Friedman, M. H. “Size of "hot spots" in impact explosion of exothermic materials.” Faraday Society -- Transactions 59, no. 488 (1963): 1865–73.

Friedman MH. Size of "hot spots" in impact explosion of exothermic materials. Faraday Society -- Transactions. 1963;59(488):1865–73.

Friedman, M. H. “Size of "hot spots" in impact explosion of exothermic materials.” Faraday Society -- Transactions, vol. 59, no. 488, 1963, pp. 1865–73.

Friedman MH. Size of "hot spots" in impact explosion of exothermic materials. Faraday Society -- Transactions. 1963;59(488):1865–1873.

Published In

Faraday Society -- Transactions

Publication Date

1963

Volume

Issue

488

Start / End Page

1865 / 1873