实验流体力学
實驗流體力學
실험류체역학
JOURNAL OF EXPERIMENTS IN FLUID MECHANICS
2010年
1期
1-5
,共5页
柳森%谢爱民%黄洁%宋强%罗锦阳
柳森%謝愛民%黃潔%宋彊%囉錦暘
류삼%사애민%황길%송강%라금양
超高速碰撞%碎片云%序列照相%阴影照相%激光
超高速踫撞%碎片雲%序列照相%陰影照相%激光
초고속팽당%쇄편운%서렬조상%음영조상%격광
hypervelocity impact%debris cloud%sequence photo%shadowgraph%laser
为研究超高速碰撞过程中所产生碎片云的特性,在中国空气动力研究与发展中心超高速所碰撞靶上发展了四序列激光阴影照相系统.该系统由YAG激光光源、阴影仪、成像系统和控制系统组成,在采用多光源空间分离、偏振分光、光束角放大、补偿式滤光等技术后,获得了撞击速度v=4. 6km/s时碎片云的四序列阴影照片.笔者对该系统的工作原理、调试情况及试验结果进行了介绍.调试及试验结果表明:(1)该系统可以获得最小间隔为1μs、曝光时间为10ns的4个不同时刻的超高速碰撞碎片云图像,满足碰撞试验中对碎片云照相的要求;(2)该技术可以发展为更多序列激光阴影照相系统,并应用于其它超高速瞬态过程的测量显示.
為研究超高速踫撞過程中所產生碎片雲的特性,在中國空氣動力研究與髮展中心超高速所踫撞靶上髮展瞭四序列激光陰影照相繫統.該繫統由YAG激光光源、陰影儀、成像繫統和控製繫統組成,在採用多光源空間分離、偏振分光、光束角放大、補償式濾光等技術後,穫得瞭撞擊速度v=4. 6km/s時碎片雲的四序列陰影照片.筆者對該繫統的工作原理、調試情況及試驗結果進行瞭介紹.調試及試驗結果錶明:(1)該繫統可以穫得最小間隔為1μs、曝光時間為10ns的4箇不同時刻的超高速踫撞碎片雲圖像,滿足踫撞試驗中對碎片雲照相的要求;(2)該技術可以髮展為更多序列激光陰影照相繫統,併應用于其它超高速瞬態過程的測量顯示.
위연구초고속팽당과정중소산생쇄편운적특성,재중국공기동력연구여발전중심초고속소팽당파상발전료사서렬격광음영조상계통.해계통유YAG격광광원、음영의、성상계통화공제계통조성,재채용다광원공간분리、편진분광、광속각방대、보상식려광등기술후,획득료당격속도v=4. 6km/s시쇄편운적사서렬음영조편.필자대해계통적공작원리、조시정황급시험결과진행료개소.조시급시험결과표명:(1)해계통가이획득최소간격위1μs、폭광시간위10ns적4개불동시각적초고속팽당쇄편운도상,만족팽당시험중대쇄편운조상적요구;(2)해기술가이발전위경다서렬격광음영조상계통,병응용우기타초고속순태과정적측량현시.
Four sequences laser shadowgraph system has been set up on the hypervelocity im-pact range of Hypervelocity Aerodynamics Institute, CARDC, to visualize the hypervelocity im-pact debris cloud. The system includes YAG laser source, shadowgrapher and imaging system. Satisfying debris cloud image, with impact velocities up to 4. 6km/s, was obtained with the tech-nique of multi-light source divided in space, polarization decomposition, light angle magnification and compensated filter, etc.. Contents introduced in this paper are the principle, the debug of the system and the result of test. Test results show that: (1) Four images of hypervelocity impact debris cloud are gotten at different time which least interval is 1s and time of exposure is 10ns, which satisfies the need of photo of the debris cloud for the research of hypervelocity impact; (2) Eight sequences laser shadowgraph system could be developed at the base of the four sequences laser shadowgraph system, and the system can be used in the field of other hypervelocity process.
