纤维金属层板构件成形工艺研究进展
|
摘要
纤维金属层板是一种具有特殊结构和优良综合性能的新型材料,具有很好的应用前景。主要介绍了纤维金属层板构件的多种成形工艺,对比分析了现有成形工艺的优缺点,并综述了近年来纤维金属层板构件成形工艺的发展成果。最后,结合国内外的研究现状,对纤维金属层板构件成形工艺的发展趋势及发展中存在的问题提出了几点思考。
Fiber metal laminate is a novel functional material with unique structure and excellent characteristics, and it has good prospects for application. In this paper, the forming methods and technology of FMLs component were mainly introduced. In addition, the advantage and disadvantage of each method were also compared, and the development results of the forming process on FMLs component in recent years were summarized. Finally, combined with the research status at home and abroad, some considerations for the development trends of the forming process on FMLs component and existing problems were put forward.
Fiber metal laminate is a novel functional material with unique structure and excellent characteristics, and it has good prospects for application. In this paper, the forming methods and technology of FMLs component were mainly introduced. In addition, the advantage and disadvantage of each method were also compared, and the development results of the forming process on FMLs component in recent years were summarized. Finally, combined with the research status at home and abroad, some considerations for the development trends of the forming process on FMLs component and existing problems were put forward.
引文
[1]杜善义.先进复合材料与航空航天[J].复合材料学报,2007,24(1):1-12.DU Shan-yi.Advanced composite materials and aerospace engineering[J].Acta Materiae Compositae Sinica,2007,24(1):1-12.
[2]刘兵,彭超群,王日初,王小锋,李婷婷.大飞机用铝合金的研究现状及展望[J].中国有色金属学报,2010,20(9):1705-1715.LIU Bing,PENG Chao-qun,WANG Ri-chu,WANG Xiao-feng,LI Ting-ting.Recent development and prospects for giant plane aluminum alloys[J].The Chinese Journal of Nonferrous Metals,2010,20(9):1705-1715.
[3]金和喜,魏克湘,李建明,周建宇,彭文静.航空用钛合金研究进展[J].中国有色金属学报,2015,25(2):280-292.JIN He-xi,WEI Ke-xiang,LI Jian-ming,ZHOU Jian-yu,PENG Wen-jing.Research development of titanium alloy in aerospace industry[J].The Chinese Journal of Nonferrous Metals,2015,25(2):280-292.
[4]VOLT A,GUNNINK J W.Fibre Metal Laminates[M].London:Kluwer Academic Publishers,2001.
[5]马宏毅.玻璃纤维—铝合金层板的制备和性能研究[D].北京航空材料研究院,2006.MA Hong-yi.Study on preparation and properties of Glare[D].Beijing:Beijing Institute of Aeronautical Materials,2006.
[6]王时玉.纤维金属层板的制备及力学性能研究[D].哈尔滨:哈尔滨工业大学,2012.WANG Shi-yu.Preparation and mechanical properties of fiber metal laminates[D].Harbin:Harbin Institute of Technology,2012.
[7]陶杰,胡玉冰,潘蕾,段理想,骆心怡,蔡雷,朱建平.碳纤维增强聚酰亚胺基体纤维金属层板制备方法[P].中国专利,201410426478.0,2014-12-10.TAO Jie,HU Yu-bing,PAN Lei,DUAN Li-xiang,LUO Xin-yi,CAI Lei,ZHU Jan-ping.Preparation method of carbon fiber reinforced polyimide matrix fiber metal plate[P].China Patent,201410426478.0,2014-12-10.
[8]介苏朋.纤维金属层板(FMLs)结构制造方法研究[D].西北工业大学,2006.JIE Su-peng.Study on the manufacture method of FMLs[D].Xi’an:Northwestern Polytechnical University,2006.
[9]杨栋栋.Ti/APC-2纤维金属层板的制备与力学性能研究[D].南京航空航天大学,2013.YANG Dong-dong.Study on the preparation and mechanical properties of Ti/APC-2 fiber metal laminates[D].Nanjing:Nanjing University of Aeronautics and Astronautics,2013.
[10]王永贵,梁宪珠.纤维金属层板技术与大型飞机[C]//第十八届玻璃钢/复合材料学术年会.北京:中国硅酸盐学会玻璃钢分会,2010:140-144.WANG Yong-gui,LIANG Xian-zhu.Fiber metal laminates and large airplane[C]//The 18th Annual Meeting of Glass Fiber Reinforced Plastic/Composite Materials.Beijing:The Glass Fiber Reinforced Plastics and Composite Materials Sub-Committee of the Chinese Ceramic Society,2010:140-144.
[11]SINMAZ?ELIKA T,AVCUA E,BORA M?,?OBANA O.A review:Fibre metal laminates,background,bonding types and applied test methods[J].Materials&Design,2011,32(7):3671-3685.
[12]VOGELESANG L B,VLOT A.Development of fibre metal laminates for advanced aerospace structures[J].Journal of Materials Processing Technology,2000,103(1):1-5.
[13]SADIGHI M,ALDERLIESTEN R C,BENEDICTUS R.Impact resistance of fiber-metal laminates:A review[J].International Journal of Impact Engineering,2012,49(49):77-90.
[14]WU G,YANG J M.The mechanical behavior of GLARE laminates for aircraft structures[J].JOM,2005,57(1):72-79.
[15]王世明,吴中庆,张振军,关天茹,陈照峰.大飞机用Glare层板的性能综合评价研究[J].材料导报,2010,24(17):88-95.WANG Shi-ming,WU Zhong-qing,ZHANG Zhen-jun,GUAN Tian-ru,CHEN Zhao-feng.Research of Glare laminates performance comprehensive evaluation applied to large aircraft[J].Materials Review,2010,24(17):88-95.
[16]GREIDANUS B V W.Design and testing of a circumferential and longitudinal joint of the A320 fuselage section 13/14 in GLARE[R].Delft:Aerospace Engineering,1990.
[17]MOSSE L,CANTWELL W J,CARDEWHALL M J,COMPSTON P,KALYANASUNDARAM S.A study of the effect of process variables on the stamp forming of rectangular cups using fibre-metal laminate systems[J].Advanced Materials Research,2005,6/8:649-656.
[18]GUILLEN J F,CANTWELL W J.The influence of cooling rate on the fracture properties of a glass reiforced/nylon fiber-metal laminate[J].Polymer Composites,2004,23(5):839-851.
[19]REYES G,GUPTA S.Manufacturing and mechanical properties of thermoplastic hybrid laminates based on DP500 steel[J].Composites Part A:Applied Science&Manufacturing,2009,40(2):176-183.
[20]OSTAPIUK M,SUROWSKA B,BIENIAS J,MAJERSKI K.Structure characteristics in glass/aluminum hybrid laminates after bending strength test[J].Composites Theory and Practice,2013,13(4):237-240.(in Polish)
[21]BIENIAS J.Fibre metal laminates-some aspects of manufacturing process,structure and selected properties[J].Kompozyty,2011,11(1):39-43.
[22]DE J T.Forming of laminates[D].Delft:Delft University,2004.
[23]曹增强.纤维金属层板及其在飞机结构中的应用[J].航空制造技术,2006(6):60-62.CAO Zeng-qiang.Fiber metal laminates and application in aircraft structure[J].Aeronautical Manufacturing Technology,2006(6):60-62.
[24]ASUNDI A,CHOI A Y N.Fiber metal laminates:An advanced material for future aircraft[J].Journal of Materials Processing Technology,1997,63(1/3):384-394.
[25]吴志恩.纤维金属层板在飞机制造中的应用及工艺性分析[J].航空制造技术,2013(1/2):137-139.WU Zhi-en.Application and property analysis of fiber-metal laminate for aircraft manufacturing[J].Aeronautical Manufacturing Technology,2013(1/2):137-139.
[26]曹春晓.一代材料技术,一代大型飞机[J].航空学报,2008,29(3):701-706.CAO Chun-xiao.One generation of material technology,one generation of large aircraft[J].Acta Aeronautica et Astronautica Sinica,2008,29(3):701-706.
[27]徐义,李落星,李光耀,钟志华.型材弯曲工艺的现状及发展前景[J].塑性工程学报,2008,15(3):61-70.XU Yi,LI Luo-xing,LI Guang-yao,ZHONG Zhi-hua.Extrusion bending:Method,application and recent development[J].Journal of Plasticity Engineering,2008,15(3):61-70.
[28]VLOT A.Glare[M].Netherlands:Kluwer Academic Publishers,2009.
[29]SINKE J.8-Forming technology for composite/metal hybrids[M].London:Woodhead Publishing,2007:13,197-219.
[30]CLEMENTE I C,BENDADA A,AVDELIDIS N P,MALDAGUE X P V.Nondestructive assessment of glass fibre composites by mid-wave and near infrared vision[J].Materials Transactions,2012,53(4):601-603.
[31]陶杰,李华冠,潘蕾,胡玉冰.纤维金属层板的研究与发展趋势[J].南京航空航天大学学报,2015,47(5):626-636.TAO Jie,LI Hua-guan,PAN Lei,HU Yu-bing.Review on research and development of fiber metal laminates[J].Journal of Nanjing University of Aeronautics&Astronautics,2015,47(5):626-636.
[32]RAJABI A,KADKHODAYAN M,MANOOCHEHRI M,FARJADFAR R.Deep-drawing of thermoplastic metal-composite structures:Experimental investigations,statistical analyses and finite element modeling[J].Journal of Materials Processing Technology,2015,215:159-170.
[33]RAJABI A,KADKHODAYAN M.An investigation into the deep drawing of fiber-metal laminates based on glass fiber reinforced polypropylene[J].International Journal of Engineering,2014,27(3):349-358.
[34]NEUGEBAUER R,KRAUSEL V,GRAF A.Process chains for fibre metal laminates[J].Advanced Materials Research,2014,1018:285-292.
[35]廖建.纤维金属层板(FMLs)基本力学性能试验研究[D].西安:西北工业大学,2007.LIAO Jian.Experimental study on basic mechanical properties of fiber reinforced metal laminates[D].Xi’an:Northwestern Polytechnical University,2007.
[36]ZHANG R,LANG L,ZAFAR R,ZHANG W.Investigation into thinning and spring back of multilayer metal forming using hydro-mechanical deep drawing(HMDD)for lightweight parts[J].International Journal of Advanced Manufacturing Technology,2015,82(5):1-10.
[37]ZHANG R,LANG L,ZAFAR R.FEM-based strain analysis study for multilayer sheet forming process[J].Frontiers of Mechanical Engineering,2015,10(4):373-379.
[38]ZHANG Rong-jing,LANG Li-hui,ZAFAR R,LI Kui,WU Lei.Effect of gap generator blank thickness on formability in multilayer stamp forming process[J].Transactions of Nonferrous Metals Society of China,2016,26(9):2442-2448.
[39]岳广全,张嘉振,孟松鹤,刘富,王裕,张明义.纤维金属层板结构的制造技术研究[C]//第十四届中国科协年会.石家庄:中国科技出版社,2012:1.YUE Guang-quan,ZHANG Jiao-zhen,MENG Song-he,LIU Fu,WANG Yu,ZHANG Ming-yi.Manufacturing technology research of fiber metal lamellar structure[C]//The 14 Annual Meeting of China Association for Science and Technology.Shijiazhuang:China Science Publishing,2012:1.
[40]李树健,湛利华,彭文飞,周源琦.先进复合材料构件热压罐成型工艺研究进展[J].稀有金属材料与工程,2015,44(11):2927-2931.LI Shu-jian,ZHAN Li-hua,PENG Weng-fei,ZHOU Yuan-qi.Research progress of autoclave molding for advanced composite components[J].Rare Metal Materials and Engineering,2015,44(11):2927-2931.
[41]王永贵,梁宪珠,曹正华,张博明,戴福洪,张铖.热压罐工艺成型先进复合材料构件的温度场研究综述[J].玻璃钢/复合材料,2009(3):81-85.WANG Yong-gui,LIANG Xian-zhu,CAO Zheng-hua,ZHANG Bo-ming,DAI Fu-hong,ZHANG Cheng.Review of the temperature field research of autoclave moulding for advanced composite components[J].Fiber Reinforced Plastics/Composites,2009(3):81-85.
[42]SINKE J.Development of fibre metal laminates:Concurrent multi-scale modeling and testing[J].Journal of Materials Science,2006,41(20):6777-6788.
[43]WU W,ABLIZ D,JIANG B,ZIEGMANN G,MEINERS D.A novel process for cost effective manufacturing of fiber metal laminate with textile reinforced p CBT composites and aluminum alloy[J].Composite Structures,2014,108:172-180.
[44]QAISER H,UMAR S,NASIR A,SHAH M,NAUMAN S.Optimization of interlaminar shear strength behavior of anodized and unanodized ARALL composites fabricated through VARTM process[J].International Journal of Material Forming,2014,8(3):1-13.
[45]CAREY C,CANTWELL W J,DEARDEN G,EDWARDS K R,EDWARDSON S P,WATKINS K G.Towards a rapid,non-contact shaping method for fibre metal laminates using a laser source[J].International Journal of Advanced Manufacturing Technology,2010,47(5):557-565.
[46]EDWARDSON S P,DEARDEN G,WATKINS K G,CANTWELL W J.Laser forming of fibre metal laminates[J].Lasers in Engineering,2005,15(3):233-255.
[47]CAREY C,CANTWELL W J,DEARDEN G,EDWARDS K R,EDWARDSON S P,WATKINS K G.Low power laser forming of glass fibre based fibre metal laminates[J].Laser Forming,2007,5:645-655.
[48]ZHANG R,LANG L,ZAFAR R,LIN L,ZHANG W.Investigation into thinning and spring back of multilayer metal forming using hydro-mechanical deep drawing(HMDD)for lightweight parts[J].The International Journal of Advanced Manufacturing Technology,2016,82(5):1-10.
[49]ZAFAR R,LANG L,ZHANG R.Experimental and numerical evaluation of multilayer sheet forming process parameters for light weight structures using innovative methodology[J].International Journal of Material Forming,2016,9(1):35-47.
[50]RUSSIG C,BAMBACH M,HIRT G,HOLTMANN N.Shot peen forming of fiber metal laminates on the example of GLARE[J].International Journal of Material Forming,2014,7(4):425-438.
[51]HU Y,ZHANG W,JIANG W,CAO L,SHEN Y,LI H,GUAN Z,TAO J,XU J.Effects of exposure time and intensity on the shot peen forming characteristics of Ti/CFRP laminates[J].Composites Part A:Applied Science&Manufacturing,2016,91(1):96-104.
[52]HU Y,ZHENG X,WANG D,ZHANG Z,XIE Y,YAO Z.Application of laser peen forming to bend fibre metal laminates by high dynamic loading[J].Journal of Materials Processing Technology,2015,226:32-39.
[2]刘兵,彭超群,王日初,王小锋,李婷婷.大飞机用铝合金的研究现状及展望[J].中国有色金属学报,2010,20(9):1705-1715.LIU Bing,PENG Chao-qun,WANG Ri-chu,WANG Xiao-feng,LI Ting-ting.Recent development and prospects for giant plane aluminum alloys[J].The Chinese Journal of Nonferrous Metals,2010,20(9):1705-1715.
[3]金和喜,魏克湘,李建明,周建宇,彭文静.航空用钛合金研究进展[J].中国有色金属学报,2015,25(2):280-292.JIN He-xi,WEI Ke-xiang,LI Jian-ming,ZHOU Jian-yu,PENG Wen-jing.Research development of titanium alloy in aerospace industry[J].The Chinese Journal of Nonferrous Metals,2015,25(2):280-292.
[4]VOLT A,GUNNINK J W.Fibre Metal Laminates[M].London:Kluwer Academic Publishers,2001.
[5]马宏毅.玻璃纤维—铝合金层板的制备和性能研究[D].北京航空材料研究院,2006.MA Hong-yi.Study on preparation and properties of Glare[D].Beijing:Beijing Institute of Aeronautical Materials,2006.
[6]王时玉.纤维金属层板的制备及力学性能研究[D].哈尔滨:哈尔滨工业大学,2012.WANG Shi-yu.Preparation and mechanical properties of fiber metal laminates[D].Harbin:Harbin Institute of Technology,2012.
[7]陶杰,胡玉冰,潘蕾,段理想,骆心怡,蔡雷,朱建平.碳纤维增强聚酰亚胺基体纤维金属层板制备方法[P].中国专利,201410426478.0,2014-12-10.TAO Jie,HU Yu-bing,PAN Lei,DUAN Li-xiang,LUO Xin-yi,CAI Lei,ZHU Jan-ping.Preparation method of carbon fiber reinforced polyimide matrix fiber metal plate[P].China Patent,201410426478.0,2014-12-10.
[8]介苏朋.纤维金属层板(FMLs)结构制造方法研究[D].西北工业大学,2006.JIE Su-peng.Study on the manufacture method of FMLs[D].Xi’an:Northwestern Polytechnical University,2006.
[9]杨栋栋.Ti/APC-2纤维金属层板的制备与力学性能研究[D].南京航空航天大学,2013.YANG Dong-dong.Study on the preparation and mechanical properties of Ti/APC-2 fiber metal laminates[D].Nanjing:Nanjing University of Aeronautics and Astronautics,2013.
[10]王永贵,梁宪珠.纤维金属层板技术与大型飞机[C]//第十八届玻璃钢/复合材料学术年会.北京:中国硅酸盐学会玻璃钢分会,2010:140-144.WANG Yong-gui,LIANG Xian-zhu.Fiber metal laminates and large airplane[C]//The 18th Annual Meeting of Glass Fiber Reinforced Plastic/Composite Materials.Beijing:The Glass Fiber Reinforced Plastics and Composite Materials Sub-Committee of the Chinese Ceramic Society,2010:140-144.
[11]SINMAZ?ELIKA T,AVCUA E,BORA M?,?OBANA O.A review:Fibre metal laminates,background,bonding types and applied test methods[J].Materials&Design,2011,32(7):3671-3685.
[12]VOGELESANG L B,VLOT A.Development of fibre metal laminates for advanced aerospace structures[J].Journal of Materials Processing Technology,2000,103(1):1-5.
[13]SADIGHI M,ALDERLIESTEN R C,BENEDICTUS R.Impact resistance of fiber-metal laminates:A review[J].International Journal of Impact Engineering,2012,49(49):77-90.
[14]WU G,YANG J M.The mechanical behavior of GLARE laminates for aircraft structures[J].JOM,2005,57(1):72-79.
[15]王世明,吴中庆,张振军,关天茹,陈照峰.大飞机用Glare层板的性能综合评价研究[J].材料导报,2010,24(17):88-95.WANG Shi-ming,WU Zhong-qing,ZHANG Zhen-jun,GUAN Tian-ru,CHEN Zhao-feng.Research of Glare laminates performance comprehensive evaluation applied to large aircraft[J].Materials Review,2010,24(17):88-95.
[16]GREIDANUS B V W.Design and testing of a circumferential and longitudinal joint of the A320 fuselage section 13/14 in GLARE[R].Delft:Aerospace Engineering,1990.
[17]MOSSE L,CANTWELL W J,CARDEWHALL M J,COMPSTON P,KALYANASUNDARAM S.A study of the effect of process variables on the stamp forming of rectangular cups using fibre-metal laminate systems[J].Advanced Materials Research,2005,6/8:649-656.
[18]GUILLEN J F,CANTWELL W J.The influence of cooling rate on the fracture properties of a glass reiforced/nylon fiber-metal laminate[J].Polymer Composites,2004,23(5):839-851.
[19]REYES G,GUPTA S.Manufacturing and mechanical properties of thermoplastic hybrid laminates based on DP500 steel[J].Composites Part A:Applied Science&Manufacturing,2009,40(2):176-183.
[20]OSTAPIUK M,SUROWSKA B,BIENIAS J,MAJERSKI K.Structure characteristics in glass/aluminum hybrid laminates after bending strength test[J].Composites Theory and Practice,2013,13(4):237-240.(in Polish)
[21]BIENIAS J.Fibre metal laminates-some aspects of manufacturing process,structure and selected properties[J].Kompozyty,2011,11(1):39-43.
[22]DE J T.Forming of laminates[D].Delft:Delft University,2004.
[23]曹增强.纤维金属层板及其在飞机结构中的应用[J].航空制造技术,2006(6):60-62.CAO Zeng-qiang.Fiber metal laminates and application in aircraft structure[J].Aeronautical Manufacturing Technology,2006(6):60-62.
[24]ASUNDI A,CHOI A Y N.Fiber metal laminates:An advanced material for future aircraft[J].Journal of Materials Processing Technology,1997,63(1/3):384-394.
[25]吴志恩.纤维金属层板在飞机制造中的应用及工艺性分析[J].航空制造技术,2013(1/2):137-139.WU Zhi-en.Application and property analysis of fiber-metal laminate for aircraft manufacturing[J].Aeronautical Manufacturing Technology,2013(1/2):137-139.
[26]曹春晓.一代材料技术,一代大型飞机[J].航空学报,2008,29(3):701-706.CAO Chun-xiao.One generation of material technology,one generation of large aircraft[J].Acta Aeronautica et Astronautica Sinica,2008,29(3):701-706.
[27]徐义,李落星,李光耀,钟志华.型材弯曲工艺的现状及发展前景[J].塑性工程学报,2008,15(3):61-70.XU Yi,LI Luo-xing,LI Guang-yao,ZHONG Zhi-hua.Extrusion bending:Method,application and recent development[J].Journal of Plasticity Engineering,2008,15(3):61-70.
[28]VLOT A.Glare[M].Netherlands:Kluwer Academic Publishers,2009.
[29]SINKE J.8-Forming technology for composite/metal hybrids[M].London:Woodhead Publishing,2007:13,197-219.
[30]CLEMENTE I C,BENDADA A,AVDELIDIS N P,MALDAGUE X P V.Nondestructive assessment of glass fibre composites by mid-wave and near infrared vision[J].Materials Transactions,2012,53(4):601-603.
[31]陶杰,李华冠,潘蕾,胡玉冰.纤维金属层板的研究与发展趋势[J].南京航空航天大学学报,2015,47(5):626-636.TAO Jie,LI Hua-guan,PAN Lei,HU Yu-bing.Review on research and development of fiber metal laminates[J].Journal of Nanjing University of Aeronautics&Astronautics,2015,47(5):626-636.
[32]RAJABI A,KADKHODAYAN M,MANOOCHEHRI M,FARJADFAR R.Deep-drawing of thermoplastic metal-composite structures:Experimental investigations,statistical analyses and finite element modeling[J].Journal of Materials Processing Technology,2015,215:159-170.
[33]RAJABI A,KADKHODAYAN M.An investigation into the deep drawing of fiber-metal laminates based on glass fiber reinforced polypropylene[J].International Journal of Engineering,2014,27(3):349-358.
[34]NEUGEBAUER R,KRAUSEL V,GRAF A.Process chains for fibre metal laminates[J].Advanced Materials Research,2014,1018:285-292.
[35]廖建.纤维金属层板(FMLs)基本力学性能试验研究[D].西安:西北工业大学,2007.LIAO Jian.Experimental study on basic mechanical properties of fiber reinforced metal laminates[D].Xi’an:Northwestern Polytechnical University,2007.
[36]ZHANG R,LANG L,ZAFAR R,ZHANG W.Investigation into thinning and spring back of multilayer metal forming using hydro-mechanical deep drawing(HMDD)for lightweight parts[J].International Journal of Advanced Manufacturing Technology,2015,82(5):1-10.
[37]ZHANG R,LANG L,ZAFAR R.FEM-based strain analysis study for multilayer sheet forming process[J].Frontiers of Mechanical Engineering,2015,10(4):373-379.
[38]ZHANG Rong-jing,LANG Li-hui,ZAFAR R,LI Kui,WU Lei.Effect of gap generator blank thickness on formability in multilayer stamp forming process[J].Transactions of Nonferrous Metals Society of China,2016,26(9):2442-2448.
[39]岳广全,张嘉振,孟松鹤,刘富,王裕,张明义.纤维金属层板结构的制造技术研究[C]//第十四届中国科协年会.石家庄:中国科技出版社,2012:1.YUE Guang-quan,ZHANG Jiao-zhen,MENG Song-he,LIU Fu,WANG Yu,ZHANG Ming-yi.Manufacturing technology research of fiber metal lamellar structure[C]//The 14 Annual Meeting of China Association for Science and Technology.Shijiazhuang:China Science Publishing,2012:1.
[40]李树健,湛利华,彭文飞,周源琦.先进复合材料构件热压罐成型工艺研究进展[J].稀有金属材料与工程,2015,44(11):2927-2931.LI Shu-jian,ZHAN Li-hua,PENG Weng-fei,ZHOU Yuan-qi.Research progress of autoclave molding for advanced composite components[J].Rare Metal Materials and Engineering,2015,44(11):2927-2931.
[41]王永贵,梁宪珠,曹正华,张博明,戴福洪,张铖.热压罐工艺成型先进复合材料构件的温度场研究综述[J].玻璃钢/复合材料,2009(3):81-85.WANG Yong-gui,LIANG Xian-zhu,CAO Zheng-hua,ZHANG Bo-ming,DAI Fu-hong,ZHANG Cheng.Review of the temperature field research of autoclave moulding for advanced composite components[J].Fiber Reinforced Plastics/Composites,2009(3):81-85.
[42]SINKE J.Development of fibre metal laminates:Concurrent multi-scale modeling and testing[J].Journal of Materials Science,2006,41(20):6777-6788.
[43]WU W,ABLIZ D,JIANG B,ZIEGMANN G,MEINERS D.A novel process for cost effective manufacturing of fiber metal laminate with textile reinforced p CBT composites and aluminum alloy[J].Composite Structures,2014,108:172-180.
[44]QAISER H,UMAR S,NASIR A,SHAH M,NAUMAN S.Optimization of interlaminar shear strength behavior of anodized and unanodized ARALL composites fabricated through VARTM process[J].International Journal of Material Forming,2014,8(3):1-13.
[45]CAREY C,CANTWELL W J,DEARDEN G,EDWARDS K R,EDWARDSON S P,WATKINS K G.Towards a rapid,non-contact shaping method for fibre metal laminates using a laser source[J].International Journal of Advanced Manufacturing Technology,2010,47(5):557-565.
[46]EDWARDSON S P,DEARDEN G,WATKINS K G,CANTWELL W J.Laser forming of fibre metal laminates[J].Lasers in Engineering,2005,15(3):233-255.
[47]CAREY C,CANTWELL W J,DEARDEN G,EDWARDS K R,EDWARDSON S P,WATKINS K G.Low power laser forming of glass fibre based fibre metal laminates[J].Laser Forming,2007,5:645-655.
[48]ZHANG R,LANG L,ZAFAR R,LIN L,ZHANG W.Investigation into thinning and spring back of multilayer metal forming using hydro-mechanical deep drawing(HMDD)for lightweight parts[J].The International Journal of Advanced Manufacturing Technology,2016,82(5):1-10.
[49]ZAFAR R,LANG L,ZHANG R.Experimental and numerical evaluation of multilayer sheet forming process parameters for light weight structures using innovative methodology[J].International Journal of Material Forming,2016,9(1):35-47.
[50]RUSSIG C,BAMBACH M,HIRT G,HOLTMANN N.Shot peen forming of fiber metal laminates on the example of GLARE[J].International Journal of Material Forming,2014,7(4):425-438.
[51]HU Y,ZHANG W,JIANG W,CAO L,SHEN Y,LI H,GUAN Z,TAO J,XU J.Effects of exposure time and intensity on the shot peen forming characteristics of Ti/CFRP laminates[J].Composites Part A:Applied Science&Manufacturing,2016,91(1):96-104.
[52]HU Y,ZHENG X,WANG D,ZHANG Z,XIE Y,YAO Z.Application of laser peen forming to bend fibre metal laminates by high dynamic loading[J].Journal of Materials Processing Technology,2015,226:32-39.