Particle launch to 19km/s for micro-meteoroid simulation using enhanced three-stage light gas gun hypervelocity launcher techniques
Particle launch experiments were performed to study application of the enhanced hypervelocity launcher (EHVL), i.e. the third-stage addition to the two-stage gun, for launching micron to millimeter sized particulates at velocities unobtainable with a standard two-stage light gas gun launch. Three ty...
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Published in | International journal of impact engineering Vol. 33; no. 1-12; pp. 799 - 811 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
Published |
01.12.2006
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Abstract | Particle launch experiments were performed to study application of the enhanced hypervelocity launcher (EHVL), i.e. the third-stage addition to the two-stage gun, for launching micron to millimeter sized particulates at velocities unobtainable with a standard two-stage light gas gun launch. Three types of particles or fliers were tested along with several barrel designs. For micron scale particles fine-grain polycrystalline ceramics were impacted and fractured, launching particulate clouds at velocities of 15km/s. Multiple titanium particles 400mum diameter embedded in plastic were 'shotgun' launched to velocities of 10km/s. Flier plates of 3mm diameter by 1mm thick Ti6Al4V were launched to 19km/s. All experiments used a second-stage projectile with graded density facing impacting a flier in an impact generated acceleration reservoir. This paper describes the modification and adaptation of the Sandia EHVL to provide micrometeoroid simulation capabilities. |
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AbstractList | Particle launch experiments were performed to study application of the enhanced hypervelocity launcher (EHVL), i.e. the third-stage addition to the two-stage gun, for launching micron to millimeter sized particulates at velocities unobtainable with a standard two-stage light gas gun launch. Three types of particles or fliers were tested along with several barrel designs. For micron scale particles fine-grain polycrystalline ceramics were impacted and fractured, launching particulate clouds at velocities of 15km/s. Multiple titanium particles 400mum diameter embedded in plastic were 'shotgun' launched to velocities of 10km/s. Flier plates of 3mm diameter by 1mm thick Ti6Al4V were launched to 19km/s. All experiments used a second-stage projectile with graded density facing impacting a flier in an impact generated acceleration reservoir. This paper describes the modification and adaptation of the Sandia EHVL to provide micrometeoroid simulation capabilities. |
Author | Thornhill, T.F. Davidson, D.L. Reinhart, W.D. Chhabildas, L.C. |
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