Abstract
An imploding spherical or cylindrical detonation, starting in the interface of the detonantion with an external inert media, used as a reflector, creates on it a strong shock wave moving outward from the interface. An initially weak shock wave appears in the detonated media that travels toward the center, and it could reach the detonation wave, enforcing it in its process of implosion. To describe the fluid field, the Euler s equations are solved by means of expansions valid for the early stages of the process. Isentropic of the type P/p{gamma}-K for the detonated and compressed inert media are used. For liquid or solid reflectors a more appropriate equation is used. (Author) 8 refs.
Citation Formats
Linan, A, and Lecuona, A.
Confined detonations with cylindrical and spherical symmetry; Detonaciones confinadas con simetria esferica y cilindrica.
Spain: N. p.,
1979.
Web.
Linan, A, & Lecuona, A.
Confined detonations with cylindrical and spherical symmetry; Detonaciones confinadas con simetria esferica y cilindrica.
Spain.
Linan, A, and Lecuona, A.
1979.
"Confined detonations with cylindrical and spherical symmetry; Detonaciones confinadas con simetria esferica y cilindrica."
Spain.
@misc{etde_21008459,
title = {Confined detonations with cylindrical and spherical symmetry; Detonaciones confinadas con simetria esferica y cilindrica}
author = {Linan, A, and Lecuona, A}
abstractNote = {An imploding spherical or cylindrical detonation, starting in the interface of the detonantion with an external inert media, used as a reflector, creates on it a strong shock wave moving outward from the interface. An initially weak shock wave appears in the detonated media that travels toward the center, and it could reach the detonation wave, enforcing it in its process of implosion. To describe the fluid field, the Euler s equations are solved by means of expansions valid for the early stages of the process. Isentropic of the type P/p{gamma}-K for the detonated and compressed inert media are used. For liquid or solid reflectors a more appropriate equation is used. (Author) 8 refs.}
place = {Spain}
year = {1979}
month = {Jul}
}
title = {Confined detonations with cylindrical and spherical symmetry; Detonaciones confinadas con simetria esferica y cilindrica}
author = {Linan, A, and Lecuona, A}
abstractNote = {An imploding spherical or cylindrical detonation, starting in the interface of the detonantion with an external inert media, used as a reflector, creates on it a strong shock wave moving outward from the interface. An initially weak shock wave appears in the detonated media that travels toward the center, and it could reach the detonation wave, enforcing it in its process of implosion. To describe the fluid field, the Euler s equations are solved by means of expansions valid for the early stages of the process. Isentropic of the type P/p{gamma}-K for the detonated and compressed inert media are used. For liquid or solid reflectors a more appropriate equation is used. (Author) 8 refs.}
place = {Spain}
year = {1979}
month = {Jul}
}