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Simulation of launch and re-entry acceleration profiles for testing of shuttle and unmanned microgravity research payloads
Authors:J. M. Cassanto   H. I. Ziserman   D. K. Chapman   Z. R. Korszun  P. Todd
Affiliation:

* Instrumentation Technology Associates Inc., 99 Great Valley Parkway, Malvern, PA 19355, U.S.A.

** Micro-G Research Co., 3401 Market St., Suite 345, Philadelphia, PA 19104, U.S.A.

*** Biomedical Research Center, Box 2000, University of Wisconsin-Parkside, Kenosha, WI, U.S.A.

National Bureau of Standards, 325 Broadway, Boulder, CO 80303, U.S.A.

Abstract:Microgravity experiments designed for execution in Get-Away Special canisters, Hitchhiker modules, and Reusable Re-entry Satellites will be subjected to launch and re-entry accelerations. Crew-dependent provisions for preventing acceleration damage to equipment or products will not be available for these payloads during flight; therefore, the effects of launch and re-entry accelerations on all aspects of such payloads must be evaluated prior to flight. A procedure was developed for conveniently simulating the launch and re-entry acceleration profiles of the Space Shuttle (3.3 and 1.7 × g maximum, respectively) and of two versions of NASA's proposed materials research Re-usable Re-entry Satellite (8 × g maximum in one case and 4 × g in the other). By using the 7 m centrifuge of the Gravitational Plant Physiology Laboratory in Philadelphia it was found possible to simulate the time dependence of these 5 different acceleration episodes for payload masses up to 59 kg. A commercial low-cost payload device, the “Materials Dispersion Apparatus” of Instrumentation Technology Associates was tested for (1) integrity of mechanical function, (2) retention of fluid in its compartments, and (3) integrity of products under simulated re-entry g-loads. In particular, the sharp rise from 1 g to maximum g-loading that occurs during re-entry in various unmanned vehicles was successfully simulated, conditions were established for reliable functioning of the MDA, and crystals of 5 proteins suspended in compartments filled with mother liquor were subjected to this acceleration load.
Keywords:
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