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Temperature influences of the recoil characteristics for aluminum honeycomb buffer in the tether-net launcher

Wenhui Shi, Shuai Yue, Chunbo Wu, Zhou Liu, Zhi Liu, Bei-bei Zhao, Zhonghua Du, Guangfa Gao

2022Defence Technology11 citationsDOIOpen Access PDF

Abstract

Fluctuations in outer space's temperature would affect the spacecraft's regular operation. This paper aims to study the temperature influences of the aluminum honeycomb buffer in the tether-net launcher. Firstly, a buffer structure was designed to attenuate the pyroshock generated by the pyrotechnic device. Secondly, the mechanical properties of aluminum honeycomb at different temperatures were obtained through quasi-static compression experiments. Then, the internal ballistic responses of the launcher were gained by the closed bomb tests and the equivalent classical interior ballistic model. Finally, the recoil performance of the launcher with aluminum honeycomb buffer at different temperatures was studied. It is revealed that the aluminum honeycomb crushing force gradually decreases with the temperature increases. The peak pressure, burning rate coefficient and velocity increase while the peak time decreases with the temperature increase for the interior ballistics. For the launcher recoil responses, the average launch recoil decreases if the aluminum honeycomb doesn't enter the dense stage. The impact acceleration, projectile velocity and displacement increase as the temperature increase. The paper spotlights the temperature's influence on the recoil characteristics of the aluminum honeycomb buffer, which provides a new idea for buffering technology of pyrotechnic devices in a complex space environment.

Topics & Concepts

RecoilProjectileAluminiumMaterials scienceHoneycombInternal ballisticsBuffer (optical fiber)Composite materialSpacecraftAccelerationMechanicsPhysicsAerospace engineeringAtomic physicsElectrical engineeringEngineeringMetallurgyClassical mechanicsEnergetic Materials and CombustionSpace Satellite Systems and ControlHigh-Velocity Impact and Material Behavior
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