A new two-stage light-gas gun type accelerator was developed at Fraunhofer EMI. The pumping stage is modified to create a single, elongated pressure pulse to act on the projectile. Numerical simulations show that the maximum pressure load to the accelerator can be reduced by approx. 30% compared to a standard two-stage light-gas accelerator of similar geometry. Experimental results of the calibre 4 mm prototype show feasibility of the concept. The concept is reviewed and numerical parametric investigations required for successful operation are presented. In the future, the concept presented shall increase the performance attainable by light-gas gun accelerators
This paper reports a theoretical and numerical study aimed at increasing the operating efficiency of...
The extra-large light-gas gun (XLLGG) at the Fraunhofer Ernst-Mach-Institut (EMI, Efringen-Kirchen, ...
FR 2916526 A1 UPAB: 20081208 NOVELTY - The gun has propulsion tubes (30a, 30b) respectively comprisi...
A new two-stage light-gas gun type accelerator was developed at Fraunhofer EMI. The accelerator feat...
AbstractA new two-stage light-gas gun type accelerator was developed at Fraunhofer EMI. The accelera...
An impact facility based upon a two-stage high-frequency light-gas gun has been developed to allow ...
Abstract A preliminary version of Two Stage Light Gas Gun for impact testing directly derived from f...
This paper investigates the concept of application of light gas gun accelerators for upper atmospher...
A two-stage light gas gun of 9 m length is constructed for shock wave research. The apparatus consis...
A new gasdynamic launcher is described, in which intact projectiles weighing at least 1 gram can be ...
AbstractOn the basis of Sandia's third-stage launcher, a new scheme of hypervelocity launchers is br...
Hypervelocity impact experiments that reproduce on-orbit collisions between micrometeoroids or orbit...
AbstractA traditional difficulty with high-explosive hypervelocity launching techniques is that extr...
A new gasdynamic launcher is described, in which intact projectiles weighing at least one gram can b...
A repetitive two-stage light gas gun for high-speed pellet injection has been developed at Oak Ridge...
This paper reports a theoretical and numerical study aimed at increasing the operating efficiency of...
The extra-large light-gas gun (XLLGG) at the Fraunhofer Ernst-Mach-Institut (EMI, Efringen-Kirchen, ...
FR 2916526 A1 UPAB: 20081208 NOVELTY - The gun has propulsion tubes (30a, 30b) respectively comprisi...
A new two-stage light-gas gun type accelerator was developed at Fraunhofer EMI. The accelerator feat...
AbstractA new two-stage light-gas gun type accelerator was developed at Fraunhofer EMI. The accelera...
An impact facility based upon a two-stage high-frequency light-gas gun has been developed to allow ...
Abstract A preliminary version of Two Stage Light Gas Gun for impact testing directly derived from f...
This paper investigates the concept of application of light gas gun accelerators for upper atmospher...
A two-stage light gas gun of 9 m length is constructed for shock wave research. The apparatus consis...
A new gasdynamic launcher is described, in which intact projectiles weighing at least 1 gram can be ...
AbstractOn the basis of Sandia's third-stage launcher, a new scheme of hypervelocity launchers is br...
Hypervelocity impact experiments that reproduce on-orbit collisions between micrometeoroids or orbit...
AbstractA traditional difficulty with high-explosive hypervelocity launching techniques is that extr...
A new gasdynamic launcher is described, in which intact projectiles weighing at least one gram can b...
A repetitive two-stage light gas gun for high-speed pellet injection has been developed at Oak Ridge...
This paper reports a theoretical and numerical study aimed at increasing the operating efficiency of...
The extra-large light-gas gun (XLLGG) at the Fraunhofer Ernst-Mach-Institut (EMI, Efringen-Kirchen, ...
FR 2916526 A1 UPAB: 20081208 NOVELTY - The gun has propulsion tubes (30a, 30b) respectively comprisi...