Paper
15 September 1993 Experimental technique to launch flier-plates representing orbital debris to hypervelocities
Lalit C. Chhabildas, Mark B. Boslough
Author Affiliations +
Abstract
Very high driving pressures (tens or hundreds of GPa), are required to accelerate flier plates to hypervelocities. This loading pressure pulse on the flier plates must be nearly shockless to prevent the plate from melting or vaporizing. This is accomplished by using graded-density impactors referred to as 'pillows'. When this graded-density material is used to impact a flier- plate in a modified two-stage light gas gun, nearly shockless megabar pressures are introduced into the flier plate. The pressure pulses must also be tailored to prevent spallation of the flier- plate. This technique has been used to launch nominally 1-mm-thick aluminum, magnesium and titanium (gram-size) intact plates to 10.4 km/s, and 0.5-mm-thick aluminum and titanium (half-gram size) intact plates to 12.2 km/s. This is the highest mass-velocity capability attained with laboratory launchers to date, and should open up new regimes of impact physics and lethality studies related to space sciences for laboratory investigations. In particular, the mass- velocity capability of this newly developed hypervelocity launcher meets the average specifications of the space debris environment, and is therefore expected to be a useful tool to evaluate the effects of debris impact on space structures and debris shields.
© (1993) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Lalit C. Chhabildas and Mark B. Boslough "Experimental technique to launch flier-plates representing orbital debris to hypervelocities", Proc. SPIE 1951, Space Debris Detection and Mitigation, (15 September 1993); https://doi.org/10.1117/12.156540
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KEYWORDS
Aluminum

Clouds

Titanium

X-rays

Radiography

Photography

X-ray imaging

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