Hypervelocity Accelerators with Electro-Thermo-Chemical Reaction
スポンサーリンク
概要
- 論文の詳細を見る
A novel kind of electro-thermo-chemical (ETC) launcher for the acceleration of multikilogram-size projectiles to hypervelocity is proposed. The novel launcher concept utilizes the hot hydrogen gas generated by the chemical interaction between water and aluminum in order to accelerate the projectiles to a thermal velocity close to that of the light gas. This interaction is triggered by the Joule heating of the aluminum wire in water. Two possible designs for the accelerator concept are considered in detail. Further acceleration of the projectile near the muzzle is also discussed.
- 社団法人応用物理学会の論文
- 1991-08-15
著者
-
Ikuta K
Department Of Electronic Device Engineering Graduate School Of Information Science And Electrical En
-
Ikuta Kazunari
Japan Steel Works Ltd.
関連論文
- Selective Area Growth of Si on Thin Insulating Layers for Nanostructure Fabrication
- Hydrogen-Initiated Nucleation and Growth of Hydrogenated Amorphous Silicon on Graphite
- Comparative Evaluation of Ultrathin Mask Layers of SiO_2, SiO_x, and SiN_x for Selective Area Growth of Si
- Geometrical Form Factor Improvement for Receiving System of Infrared Lidar
- Differential Absorption Lidar at 1.67 μm for Remote Sensing of Methane Leakage
- Transport Properties of Buried AlGaAs/GaAs Quantum Wires
- Conical Liner Implosion as a Projectile Injector for Mass Drivers
- Upper-bound Frequency for Measuring mm-Wave-Band Dielectric Characteristics of Thin Films on Semiconductor Substrates
- High-Frequency Characteristics of SrTiO_3 Thin Films in the mm-Wave Band
- Measurement of High-Frequency Dielectric Characteristics in the mm-Wave Band for Dielectric Thin Films on Semiconductor Substrates
- High-Frequency Characteristics of SrTiO_3 Thin Films in the mm-Wave Band
- A Shaped Projectile for Hypervelocity Impact as a Driver of Nuclear Fusion
- Magneto-Inertia Confinement in Dynamic Z-Pinch
- Electromagnetic Acceleration of Macroparticles to Hypervelocities in Axisymmetric Geometry
- Hypervelocity Accelerators with Electro-Thermo-Chemical Reaction