Impact and Dispersion of Liquid Filled Cylinders-Reference-Cited by-同舟云学术

Impact and Dispersion of Liquid Filled Cylinders

Published:2006-04-07 Issue:6 Volume:128 Page:1295-1307
ISSN:0098-2202
Container-title:Journal of Fluids Engineering
language:en
Short-container-title:

Author:

Borg John¹,Bartyczak Susan²,Swanson Nancy³,Cogar John R.⁴

Affiliation:

1. Department of Mechanical Engineering, Marquette University, 1515 W. Wisconsin Ave., Milwaukee, WI 53233

2. Center-Dahlgren Division, Naval Surface Warfare, Dahlgren, VA 22448-5100

3. Abacus Enterprises, 2582 Island View Ln., Lummi Island, WA 98262

4. CORVID Technologies, 149 Plantation Ridge Dr., Suite 170, Mooresville, NC 28117

Abstract

The computational and experimental results of impact loading a thin wall liquid filled cylindrical target within a vacuum chamber are presented. The impact velocity ranges from 2.2 to 4.2km∕s. Both experimental and computational results are presented. It will be shown that impact dynamics and the early time fluid expansion are well modeled and understood. This includes the mass distribution and resulting expansion velocity. However, the late time dynamics, which includes the liquid breakup and droplet formation process of impacted liquid filled cylinders, is not well understood.

Publisher

ASME International

Subject

Mechanical Engineering

Link

http://asmedigitalcollection.asme.org/fluidsengineering/article-pdf/128/6/1295/5835859/1295_1.pdf

Reference47 articles.

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3. Morse, C. R., and Stepka, F. S., 1966, “Effect of Projectile Size and Material on Impact Fracture of Walls of Liquid-Filled Tanks,” NASA TN D-3627 NASA Lewis Research Center.

4. Ferguson, C. W. , 1966, “Hypervelocity Impact Effects on Liquid Hydrogen Tanks,” NASA CR-54852, NASA Lewis Research Center.

5. Richardson, A. J., and Knepper, J. J., 1970, “Hypervelocity Particle Damage Limits for Pressure Vessels,” Space Division North American Rockwell Corporation, SA 500, NAS 9-150.

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