[1] 董亚超,刘青松,钱建华. 核电站救灾机器人特征性能及试验方法研究[J]. 机器人技术与应用,2013,5:33-35. DONG Yachao, LIU Qingsong, QIAN Jianhua. Research on characteristics and test methods of rescue robots for nuclear power plant[J]. Robot Technique and Application, 2013, 5:33-35. [2] 尹强,林蓉,李芳. 辐射环境下探测机器人的方案设计及关键技术研究[J]. 轻工科技, 2014, 1:73-75. YIN Qiang, LIN Rong, LI Fang. Solution design and key technologies of detecttion robots under irradiation[J]. Light Industry Science and Technology, 2014, 1:73-75. [3] LEE J K, LEE H J, PARK B S, et al. Bridge-transported bilateral master-slave servo manipulator system for remote manipulation in spent nuclear fuel processing plant[J]. Journal of Field Robotics, 2012, 29(1):138-160. [4] NAGATANI K, KIRIBAYASHI S, OKADA Y, et al. Emergency response to the nuclear accident at the Fukushima Daiichi nuclear power plants using mobile rescue robots[J]. Journal of Field Robotics, 2013, 30(1):44-63. [5] SHARP R, DECRÉTON M. Radiation tolerance of components and materials in nuclear robot applications[J]. Reliability Engineering & System Safety, 1996, 153(1):74-79. [6] 张明路,彭平,张小俊. 特殊环境下服役机器人发展现状及其关键技术研究[J]. 河北工业大学学报, 2013, 42(1):70-75. ZHANG Minglu, PENG Ping, ZHANG Xiaojun. A study of the recent development and key technologies of advanced robots served in special circumstances[J]. Journal of Hebei University of Technoogy, 2013, 42(1):70-75. [7] 李念龙,王凯,于文华,等. 一种新的MOS管抗总剂量辐射加固措施[C]//四川省电子学会半导体与集成技术专委会2012年度学术年会论文集,四川成都,中国. 2012:63-65. LI Nianlong, WANG Kai, YU Wenhua, et al. A new MOSFET measure for total dose radiation tolerance[C]//Proceedings of Sichuan Province Institute of Electronics and Semiconductor Integrated Technology Association 2012 Annual Symposium, Chengdu, Sichuan, China. 2012:63-65 [8] 高向东,吴建伟,刘国柱,等. SOI抗总剂量辐射加固工艺栅氧可靠性研究[J]. 电子与封装, 2012, 12(8):44-47. GAO Xiangdong, WU Jianwei, LIU Guozhu, et al. Study of radiation hardened SOI gate oxide reliability[J]. Electronics & Packaging, 2012, 12(8):44-47. [9] 刘成安,张华,李众立. 强辐射环境下电子系统抗辐射技术研究[J]. 地球与环境, 2014, 42(2):265-268. LIU Chengan, ZHANG Hua, LI Zhongli. Research on anti-radiation technique for electronics system in the radiation environment[J]. Earth and Environment, 2014, 42(2):265-268. [10] 王建, 邹树梁. 钨和铅作为γ射线屏蔽材料的性能对比研究[J]. 南华大学学报, 2011, 25(4):19-22. WANG Jian, ZOU Shuliang. Comparative study of tungsten and lead as gamma ray shielding mateirals[J]. Journal of University of South China, 2011, 25(4):19-22. [11] FAN G H, GENG L, WANG G S, et al. A novel radiation protection material:BaPbO3/Al composite[J]. Materials & Design, 2009, 30:862-866. [12] COURNOYER M E. Lead substitution and elimination study[J]. Journal of Radioanalytical and Nuclear Chemistry. 2001, 24(2):397-402. [13] 王树桥,幸研,田秘,等. 混合进化算法的Metropolis 蒙特卡罗MEMS单晶硅湿法刻蚀工艺模型[J]. 机械工程学报, 2013, 49(5):167-172. WANG Shuqiao, XING Yan, TIAN Mi, et al. Hybrid evolutionary-metropolis Monte Carlo algorithm for wet etching of silicon MEMS fabrication process[J]. Journal of Mechanical Engineering, 2013, 49(5):167-172. [14] 宋述芳, 吕震宙. 基于马尔可夫蒙特卡罗子集模拟的可靠性灵敏度分析方法[J]. 机械工程学报, 2009, 45(4):33-38. SONG Shufang, LÜ Zhenzhou. Structural reliability sensitivity analysis method based on Markov chain Monte Carlo subset simulation[J]. Journal of Mechanical Engineering, 2009, 45(4):33-38. |