Design and operation of high energy liner implosions at 16 MA for studies of converging shocks

Summary form only given. Electromagnetically-driven implosion of solid-density, cylindrical liners can launch shocks with excellent precision at impact speeds exceeding 5 km/s. We discuss the design and operation of liner implosions driven at peak currents of 16 MA, using the Shiva Star capacitor ba...

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Main Authors: Turchi, P.J., Anderson, B., Anderson, H.D., Anderson, W., Atchison, W.L., Bartos, J., Bowers, R.L., Guzik, J., Kanzleiter, R., Lebeda, C., Olson, R.T., Oro, D., Randolph, R.B., Reinovsky, R.E., Roberts, J., Rodriguez, G., Sandoval, G., Salazar, M., Stokes, J., Studebaker, J., Taylor, A.J., Cavazos, T., Coffey, S., Degnan, J.H., Gale, D., Kiuttu, G., Peterkin, R.E., Sommars, W.
Format: Conference Proceeding
Language:English
Subjects:
Aluminum
Buckling
Capacitors
Conductive films
Conductors
Dielectrics and electrical insulation
Electric breakdown
Electric shock
Electrodes
Magnetic field effects
Prestressed materials
Probes
Solids
Tin
X ray radiography
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Summary:Summary form only given. Electromagnetically-driven implosion of solid-density, cylindrical liners can launch shocks with excellent precision at impact speeds exceeding 5 km/s. We discuss the design and operation of liner implosions driven at peak currents of 16 MA, using the Shiva Star capacitor bank at AFRL. Liners of 1100 aluminum, with initial length, radius and thickness of 4 cm, 5 cm and 1 mm, respectively, implode under the action of an axial current, rising in 9 microsec. Fields on the conductor surfaces exceed 0.6 MG. The inner surface of the liner achieves a speed of 6.25 km/s when it impacts a concentric target cylinder of tin at a radius of 2 cm. Magnetic probes and radially-aligned X-radiography follow the motion of the liner and its impact on the tin cylinder. This cylinder holds a solid cylinder of acrylic of 1.5 cm radius in which the motion of a converging shock is followed by optical shadowgraphy and axially-aligned X-radiography.
ISSN:0730-9244
DOI:10.1109/PPPS.2001.961074