[1] U.S. Department of Transportation Federal Aviation Administration. AC20-107B composite aircraft structure:AC No:20-107B[S].Washington, D.C.:FAA, 2009. [2] 樊则文, 陈挺, 张绪. 民用飞机复合材料后机身结构适航验证方法[J]. 高科技纤维与应用, 2018, 43(2):36-40. FAN Z W, CHEN T, ZHANG X. The means of airworthiness certification for the composite rear-fuselage structure of civil aircraft[J]. Hi-Tech Fiber & Application, 2018, 43(2):36-40(in Chinese). [3] 管清宇. 民机复合材料的适航鉴定[J]. 纤维复合材料, 2018, 35(3):77-81, 76. GUAN Q Y. Composite qualification of civil airplane for airworthiness[J]. Fiber Composites, 2018, 35(3):77-81, 76(in Chinese). [4] 郑晓玲. 复合材料结构的适航符合性分析研究[J]. 民用飞机设计与研究, 2017(1):1-6. ZHENG X L. Analysis and research on the airworthihess compliance of compisite structure[J]. Civil Aircraft Design & Research, 2017(1):1-6(in Chinese). [5] 高运生. 民用飞机复合材料结构损伤评定及其适航符合性验证研究[D]. 南京:南京航空航天大学, 2018. GAO Y S. Damage assessment of civil aircraft composite structure and its airworthiness compliance verification research[D]. Nanjing:Nanjing University of Aeronautics and Astronautics, 2018(in Chinese). [6] 李戈岚, 成万植. 复合材料盒段静力、耐久性和损伤容限一体化试验研究[J]. 飞机设计, 1994, 14(2):6-11. LI G L, CHENG W Z. Study on the integrated test of static, durability and damage tolerance of composite box section[J]. Aircraft Design, 1994, 14(2):6-11(in Chinese). [7] 汤家力, 朱广荣,李凯, 等. 民用飞机复合材料部件级疲劳与损伤容限试验[C]//第17届全国复合材料学术会议论文. 北京:[s. n.], 2012:265-270. TANG J L, ZHU G R, LI K, et al. Fatigue and damage tolerance test for composite component of civil aircraft[C]//Papers of the 17th National Conference on Composite Materials. Beijing:[s. n.], 2012:265-270(in Chinese). [8] 刘佳. 复合材料球面框的全尺寸适航验证试验方法[J]. 飞机设计, 2014, 34(6):48-52. LIU J. The full-scale test method for airworthiness certification of composite pressure bulkhead[J]. Aircraft Design, 2014, 34(6):48-52(in Chinese). [9] 孙侠生, 齐丕骞. 民用飞机结构强度刚度设计与验证指南第一册[M]. 北京:航空工业出版社, 2012. SUN X SH, QI P Q. Design and verification guide of strength and stiffness in civil aircraft structure, Volume one[M]. Beijing:Aviation Industry Press, 2012(in Chinese). [10] 强宝平. 全尺寸飞机结构试验技术[J]. 航空科学技术, 2012, 23(6):10-13. QIANG B P. Evaluation of full scale aircraft structure strength test technology[J]. Aeronautical Science & Technology, 2012, 23(6):10-13(in Chinese). [11] 中国飞机强度研究所. 航空结构强度技术[M]. 北京:航空工业出版社, 2013. AVIC Aircraft Strength Research Institute. Aircraft structure strength technology[M]. Beijing:Aviation Industry Press, 2013(in Chinese). [12] 郑建军, 唐吉运, 王彬文. C919飞机全机静力试验技术[J]. 航空学报, 2019, 40(1):522364. ZHENG J J, TANG J Y, WANG B W. Static test technology for C919 full-scale aircraft structure[J]. Acta Aeronautica et Astronautica Sinica, 2019, 40(1):522364(in Chinese). [13] 王育鹏, 裴连杰, 李秋龙, 等. 新一代战斗机全机地面强度试验技术[J]. 航空学报, 2020, 41(6):523482. WANG Y P, PEI L J, LI Q L, et al. Full-scale aircraft strength test technology of next generation fighter[J]. Acta Aeronautica et Astronautica Sinica, 2020, 41(6):523482(in Chinese). [14] 刘冰. 大型飞机全机静力试验静定支持与约束技术及其应用[J]. 科学技术与工程, 2019, 19(11):286-291. LIU B. Research and application of statically determinate support and restraint technology for static test on large aircraft[J]. Science Technology and Engineering, 2019, 19(11):286-291(in Chinese). [15] 刘玮, 滕青, 刘冰. 基于地板结构的机身双层双向加载技术[J]. 航空学报, 2018, 39(5):221712. LIU W, TENG Q, LIU B. Double-deck bi-directional loading technology based on airliner cabin floor structure[J]. Acta Aeronautica et Astronautica Sinica, 2018, 39(5):221712(in Chinese). [16] 王逾涯, 李岷, 陈群志, 等. 飞机结构静强度与疲劳试验双向加载技术研究[J]. 实验室研究与探索, 2007, 26(11):311-313, 323. WANG Y Y, LI M, CHEN Q Z, et al. Research on an aircraft structure loading apply technique[J]. Research and Exploration in Laboratory, 2007, 26(11):311-313, 323(in Chinese). [17] 巴晓蕾, 郭文婧, 罗嘉, 等. 航天复合材料机翼疲劳试验加载技术研究[J]. 强度与环境, 2019, 46(3):14-19. BA X L, GUO W J, LUO J, et al. Research on loading technology of the fatigue life testing for composite wings[J]. Structure & Environment Engineering, 2019, 46(3):14-19(in Chinese). [18] ACCARDO A, RICCI F, LUCARIELLO D, et al. Design of a combined loads machine for tests on fuselage barrels and curved panels[C]//45th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics & Materials Conference. Reston:AIAA, 2004. [19] Rouse M. Methodologies for combined loads tests using a multi-actuator test machine[C]//2013 SEM Annual Conference & Exposition on Experimental & Applied Mechanics. 2013. [20] 郑建军, 张建锋, 冯建民. 大直径机身平面传载夹具设计[J]. 工程与试验, 2014, 54(2):12-14, 46. ZHENG J J, ZHANG J F, FENG J M. Design of plane load transferring fixture for large diameter fuselage[J]. Engineering & Test, 2014, 54(2):12-14, 46(in Chinese). [21] 刘权良, 尹伟, 夏峰. 飞机结构静强度试验支持方案的确定[J]. 航空科学技术, 2012, 23(5):32-35. LIU Q L, YIN W, XIA F. The determination of support scheme for aircraft static strength verification test[J]. Aeronautical Science & Technology, 2012, 23(5):32-35(in Chinese). [22] 夏峰, 穆家琛. 全机静力试验多轮多支柱起落架支持与加载技术[J]. 科学技术与工程, 2018, 18(30):238-244. XIA F, MU J C. The support and loading technology of landing gear with multi-wheels and multi-struts for full-scale aircraft static test[J]. Science Technology and Engineering, 2018, 18(30):238-244(in Chinese). [23] 吕程, 张辉祥, 夏峰, 等. 大倾角拉压垫加载系统设计与应用[J]. 科学技术与工程, 2018, 18(26):232-236. LV C, ZHANG H X, XIA F, et al. Design and application of large dip tension/compression pad load system[J].Science Technology and Engineering, 2018, 18(26):232-236(in Chinese). |