par Moumen, Abdelhafidh 
;Grossen, Jurgen;Ndindabahizi, Irene;Gallant, Johan
Référence International Symposium on Ballistics(31st: 04-08 Nov2019: Hydrabad, India), BALLISTICS 2019, DEStech Publications, Inc., Vol. Volume 1
Publication Publié, 2019
;Grossen, Jurgen;Ndindabahizi, Irene;Gallant, JohanRéférence International Symposium on Ballistics(31st: 04-08 Nov2019: Hydrabad, India), BALLISTICS 2019, DEStech Publications, Inc., Vol. Volume 1
Publication Publié, 2019
Publication dans des actes
| Résumé : | The present paper focuses on the development of a non-intrusive measurement technique and the implementation of a quantitative flow visualization method based on Background Oriented Schlieren (BOS). The gun muzzle flow, the aerodynamics, and the ambient airprojectile interaction are visualized. In BOS, the experimental set-up of conventional Schlieren (mirrors, lenses, and knife-edge) is replaced by a background pattern and a single digital camera. The proposed measurement technique and the implemented algorithm are first validated through the temperature measurement of a flame-induced distorted flow field. An acceptable accuracy is recorded, the measurement error being less than 3-5% of the full scale. Second, the muzzle flow and the flow field around a 5.56 mm projectile in free flight was captured and analyzed. The captured structures such as vortex, barrel shock, Mach disk, and blast wave show a good agreement with those issued from the conventional Schlieren set-up |
