9th International Space Planes and Hypersonic Systems and Technologies Conference 1999
DOI: 10.2514/6.1999-4822
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Ballistic range tests in weakly ionized argon

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Cited by 13 publications
(3 citation statements)
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“…Lowry et al conducted shock standoff distance measurements in air, which spanned the range between that expected due to the thermal effects and that measured in the Ioffe Institute tests. As seen in figure 16, the ratio of the measured shock standoff to the sphere diameter in air at approximately 1600 m s −1 fell between that expected at 1300 K, which was the Lowry et al [18] also conducted a series of tests in argon plasma to investigate if the effects of vibrational nonequilibrium in air plasma could have impacted the flowfield around the sphere. In these experiments, the shock standoff distances were found to be consistent with the measured temperature in the discharge.…”
Section: Plasma Aerodynamics In Ballistic Range Testmentioning
confidence: 76%
“…Lowry et al conducted shock standoff distance measurements in air, which spanned the range between that expected due to the thermal effects and that measured in the Ioffe Institute tests. As seen in figure 16, the ratio of the measured shock standoff to the sphere diameter in air at approximately 1600 m s −1 fell between that expected at 1300 K, which was the Lowry et al [18] also conducted a series of tests in argon plasma to investigate if the effects of vibrational nonequilibrium in air plasma could have impacted the flowfield around the sphere. In these experiments, the shock standoff distances were found to be consistent with the measured temperature in the discharge.…”
Section: Plasma Aerodynamics In Ballistic Range Testmentioning
confidence: 76%
“…This small shock movement was attributed to the lack of vibrational excitation of argon as opposed to air. 2 However, with the new calculations presented in this report, we must re-assess this conclusion.…”
Section: Argon Experimentsmentioning
confidence: 99%
“…2 Standoff distance ratios of between 0.22 and 0.28 were measured, as compared to a ratio of 0.24 with no plasma. This small shock movement was attributed to the lack of vibrational excitation of argon as opposed to air.…”
Section: Argon Experimentsmentioning
confidence: 99%