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FJZ-1000型超高速转镜分幅相机及其应用 被引量:7

Model 1000 ultra-high speed rotating mirror framing camera and applications
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摘要 FJZ-1000型超高速转镜分幅相机最高摄影幅频为1×107幅/s,画幅总数160幅,尺寸7.5×10mm2。光学系统中新加入场镜以使相机的所有画幅均完整成像,使相机摄影频率全面达到标称值的技术指标。配备了新型数字化微机控制台,使相机的操作更加方便,并且实现了两台气动相机的联合拍摄,与脉冲X光机也进行了联动实验。相机达到了设计技术性能指标,实验取得了满意的结果。 Model 1000 Ultra-high speed Rotating Mirror Camera is a synchronised camera. It has framing rate from 2 × 10^6 to 1 × 10^7 fps, number of frames 160, frame size 7.5 × 10 mm^2 , photographic dynamic resolution 15 mm^-1. By use of a field lens located at the image plane of the main objective, the camera images whole, and achieve all the technical targets. The camera runs conveniently under new control system, and two sets of air turbine high speed camera have been simultaneously used. A set of Model 1000 Camera and the pulsed X-ray Cameras have also been synchronistically used in the explosive test field.
作者 李剑 畅里华 谭显祥
机构地区 中国工程物理研究院流体物理研究所
出处 《爆炸与冲击》 EI CAS CSCD 北大核心 2005年第6期574-576,共3页 Explosion and Shock Waves
关键词 爆炸力学 高速摄影 高速转镜相机 爆轰实验 mechanics of explosion high-speed photograph, high-speed rotating mirror camera, detonation experiment
分类号 O381 [理学—流体力学]
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  • 1PEI Chi-chou, Segletes S B. Jet rotation resulting from anisotropy of shaped-charge liners[A]. International Symposium on Ballistics[C]. Brussels, Belgium:[s. n.], 1989: 36-45.
  • 2Schwarts A j, Busche M J, Becker R, et al. Role of texture in spin formed Cu shaped-charge liners[A]. Iris Rose Crewther, 19th International Symposium on Ballistics[C]. Switzerland: Vetter Druck A G, 2001 : 733-740.
  • 3Burkett M W, Claucy S P, Maudin P J, et al. Modeling anisotropic plasticity: 3D Eulerian hydrocode simulations of high strain rate deformation processes[A]. Furnish M D, Thadhani N N, Horie Y. Shock Compression of Condensed Matter[C]. USA. American Institute of Physics, 2001: 279-282.
  • 4Taylor G I. Sciemific Paper of G. I. Taylor(Ⅲ ,No. 44)[M]. London: Cambridge Universky Press, 1963.
  • 5Hoggatt C R, Recht R F. Fracture behavior of tubular bombs[J]. Journal of Applied Physics, 1968, 30: 315-321.
  • 6Mort N F. Fragmentation of shell cases[A]. Proceedings of Research Society[C]. London: [s. n.], 1947,189:300-308.
  • 7Olive F, Nicaud A, Marilleau J, et al. Rupture behaviour of metals in explosive expansion[J]. Institute of Physics Conference Series, 1979,47 : 242-252.
  • 8Grady D E, Hightower M M. Fracture of a 4140 steel cylinder under high explosive loading[R]. Sandia NationalLaboratories Report, Sand-90-0882C, 1990.
  • 9A1-Hassani S T S, Johnson W. The dynamics of the fragmentation process for spherical shells containing explosives[J]. International Journal of Mechanics Science, 1969,11: 545-549.
  • 10Meyers M A, Xue Q, Nesterenko V F. Evolution in the patterning of adiabatic shear bands[A]. Furnish M D,Thadhani N N, Horie Y. Shock Compression of Condensed Matter[C]. USA: American Institute of Physics,2001:567-570.

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爆炸与冲击
2005年 第6期

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