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Li Litian; Li Benhua (Xi'an Institute of Space Radio Technology,Xi'an 710000).
AN CAT METHOD FOR RECEIVING & TRANSMMITING CHARACTRISTICS OF SPACE BORNE COMMUNICATIONS SYSTEMS
[J]. Chinese Space Science and Technology, 1994, 14(04): -.
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| [2] |
Lin Kexiang Liu Fuan Wang Rensong (Xi'an Institute of Space Radio Technology).
AIR-BORNE TEST OF WIDE FIELD LINEAR ARRAY CCD CAMERA FOR SATELLITE USE
[J]. Chinese Space Science and Technology, 1993, 13(05): 50-54.
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| [3] |
Cheng Zhixiang (Beijing Institute of Satellite Environment Engineering).
OIL-FREE TRANSFORMING OF KM4 SPACE ENVIRONMENTAL SIMULATOR
[J]. Chinese Space Science and Technology, 1993, 13(02): -.
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| [4] |
Shen Xianyun Xiang Qiulu Meng Jingrui (Institute of Space Medico-Engineering,Beijing).
EFFECTS OF SEVEL KINDS OF CHINESE HERB MEDICINES ON RABBIT EAR'S MICROCIRCULATION AND BLOOD RHEOLOGY DURING SIMULATED WEIGHTLESSNESS
[J]. Chinese Space Science and Technology, 1993, 13(01): -.
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| [5] |
Rong Lijian Wen Youhai Zhang Xiumu Li Yiyi (Institute of Metal Research,Academia Sinica,Shenyang).
PROCESSING OF PLUMBUM-STIBUM ALLOY UNDER MICROGRAVITY ENVIRONMENT IN SPACE
[J]. Chinese Space Science and Technology, 1992, 12(06): -.
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| [6] |
Huang Liangfu Tan Xiaochen Zhang Zhongli Xie Xie Xi Risheng He Ping (Lanzhou Institute of Physics,Chinese Academy of Space Technology).
PIGGYBACK EXPERIMENT OF GaAs SINGLE CRYSTAL GROWTH IN CHINESE RECOVERABLE SATELLITE
[J]. Chinese Space Science and Technology, 1991, 11(03): 52-55+51.
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| [7] |
Wang Xianrun (Lanzhou Institute of Physics).
MATHEMATICAL ANALYSES & EXPERIMENTAL VERIFICATION ON SPACECRAFT MATERIALS MASS LOSS PROCESS
[J]. Chinese Space Science and Technology, 1989, 9(03): 8-20.
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| [8] |
Jiang Wanshun Da Daoan Zhang Yanwei (Lanzhou Institute of Physics).
RESEARCH ON MONOTECTIC ALLOYS IN MICROGRAVITY CONDITIONS IN SPACE
[J]. Chinese Space Science and Technology, 1989, 9(03): 54-58.
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| [9] |
Zhang Fangqing Zhang Li Chen Guanghua Da Daoan Huang Liangfu Xie Xie.
INFLUENCE OF SPACE ENVIRONMENT ON InSb CRYSTAL GROWTH
[J]. Chinese Space Science and Technology, 1989, 9(02): 9-11+31.
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| [10] |
Xi Risheng Kang Yi Wang Kang (Lanzhou INST·of Physi(?)s).
AN ESTIMATION ON MICROGRAVITY LEVEL PROVIDED FOR MATERIALS PROCESSING IN SPACE
[J]. Chinese Space Science and Technology, 1989, 9(02): 47-50+57.
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| [11] |
Du Guojie Ge Shenran Lin Ziyuan (Institute of Space Medico-Engineering,Beijing).
DEVELOPMENT OF LOCAL LIQUID COOLing GARMENT
[J]. Chinese Space Science and Technology, 1989, 9(01): 13-23.
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| [12] |
Wang Xiji (CAST).
SPACE MICROGRAVITY RESOURCE
[J]. Chinese Space Science and Technology, 1988, 8(06): 1-3.
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| [13] |
Da Daoan, Huang Liangpu, Xie Xie, Zhang Zhongli, Xi Rishen, Zhang Yanwei (Lanzhou Institute of Physics).
FIRST MATERIAL PROCESSING EXPERIMENT IN SPACE MICROGRAVITY MADE BY CHINA
[J]. Chinese Space Science and Technology, 1988, 8(06): 4-9.
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| [14] |
Da Daoan, Jiang Wanshun, Wang Yumin (Lanzhou Institute of Physics).
PROCESS OF BINARY MONOTECTIC ALLOY UNDER SIMULATED MICROGRAVITY EFFECT BY ELECTROMAGNETIC FORCE
[J]. Chinese Space Science and Technology, 1988, 8(06): 20-23+35.
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| [15] |
Huang Liangpu, Luo Chongtai (Lanzhou Institute of Physics).
ESTIMATION OF LEVEL OF MICROGRAVITY FOR RECOVERABLE ARTIFICIAL SATELLITE
[J]. Chinese Space Science and Technology, 1988, 8(06): 31-35.
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