随着树脂基复合材料应用领域的扩大和使用量的增加,发展树脂基复合材料自动化、低成本制造技术成为先进制造技术领域的研究热点.本文详细介绍了树脂基复合材料原位固化制造技术的概念、产生与意义,对目前国内外各种树脂基复合材料原位固化制造技术的研究作了综述;对比分析了用γ射线、X射线、热、微波、紫外光和电子束等固化方式进行原位固化制造中各自优缺点及存在的问题,并对其发展方向进行了展望.
参考文献
| [1] | 杜善义.先进复合材料与航空航天[J].复合材料学报,2007(01):1-12. |
| [2] | 黄汉生.复合材料在飞机和汽车上的应用动向(一)[J].高科技纤维与应用,2004(05):15-23,48. |
| [3] | 黄汉生.复合材料在飞机和汽车上的应用动向(二)[J].高科技纤维与应用,2004(06):28-34. |
| [4] | KIMPARA I .Use of advanced composite materials in marine ve hicles[J].Marine Structures,1991,4(02):117-127. |
| [5] | 冯军.复合材料技术在当代飞机结构上的应用[J].航空制造技术,2009(22):38-42. |
| [6] | 黄领才,刘秀芝.现代大飞机复合材料应用与制造技术浅析[J].航空制造技术,2008(10):46-48. |
| [7] | GRIFFITHS B .Boeing sets pace for composite usage in large civil aircraft[R].Cincinnati:Composite World,2005. |
| [8] | 孟季菇,赵磊,梁国正.先进复合材料低成本制造技术的研究进展[J].航空工程与维修,2001(5):15-17. |
| [9] | 梁滨.航空级树脂基复合材料的低成本制造技术[J].材料导报,2009(07):77-80,85. |
| [10] | 古托夫斯基.先进复合材料制造技术[M].北京:化学工业出版社,2004 |
| [11] | ABRAMS F;TOLLE T B .An analysis of E-beam potential in aerospace composite manufacturing[J].International SAMPE Symposium and Exhibition Proceedings,1997,42:548-557. |
| [12] | SINGH A .Radiation processing of carbon fibre-reinforced advanced composites[J].Nuclear Instruments &-Methods in Physics Research Section B-Beam Interactions with Materials and Atoms,2001,185:50-54. |
| [13] | SINGH A;SAUNDERS C B;BARNARD J W et al.Electron processing of fibre reinforced advanced composites[J].Radiation Physics and Chemistry,1996,48(02):153-170. |
| [14] | 孙晓丹,冯华君,包建文.辐射固化复合材料进展[J].工程塑料应用,2002(10):54-56. |
| [15] | BEZIERS D;PERILLEUX P;GRENIE Y .Composite structures obtained by ionization curing[J].Radiation Physics and Chemistry,1996,48(02):171-177. |
| [16] | HAY J N;OGARA P .Recent developments in thermoset curing methods[J].Proceedings of the Institution of Mechanical Engineers Part G:Journal of Aerospace Engineering,2006,220(G3):187-195. |
| [17] | LOPATA V J;SAUNDERS C B;SINGH A et al.Electronbeam-curable epoxy resins for the manufacture of high-performance composites[J].Radiation Physics and Chemistry,1999,56(04):405-415. |
| [18] | C. DISPENZA;S. ALESSI;G. SPADARO .Carbon Fiber Composites Cured by γ-Radiation-Induced Polymerization of an Epoxy Resin Matrix[J].Advances in Polymer Technology,2008(3):163-171. |
| [19] | BOLL D J;LOWE K A .Cure-on the-fly system[P].USA Patent:6752190 B1,2004-06-22. |
| [20] | Markus Ahrens;Vishal Mallick;Karl Parfrey .Robot-based thermoplastic fibre placement process[J].Industrial Robot,1998(5):326-330. |
| [21] | HEIDER D;PIOVOSO M J .GILLESPIE J W.A neural network model-based open-loop optimization for the automated thermoplastic composite tow-placement system[J].Composites Part A-Applied Science and Technology,2003,34(08):791-799. |
| [22] | Fazil O. Sonmez;Mustafa Akbulut .Process optimization of tape placement for thermoplastic composites[J].Composites, Part A. Applied science and manufacturing,2007(9):2013-2023. |
| [23] | PARLEVLIET P P;BERSEE H E N;BEUKERS A .Residual stresses in thermoplastic composites-a study of the literaturePart Ⅰ:Formation of residual stresses[J].Composites Part AApplied Science and Technology,2006,37(11):1847-1857. |
| [24] | PARLEVLIET P P;BERSEE H E N;BEUKERS A .Residual stresses in thermoplastic composites-a study of the literature.Part Ⅲ:Effects of thermal residual stresses[J].Composites Part A-Applied Science and Technology,2007,38(06):1581-1596. |
| [25] | PARLEVLIET P P;BERSEE H E N;BEUKERS A .Residual stresses in thermoplastic composites-a study of the literaturePart Ⅱ:Experimental techniques[J].Composites Part A-Applied Science and Technology,2007,38(03):651-665. |
| [26] | MUHAMMAD AMIR KHAN;PETER MITSCHANG;RALF SCHLEDJEWSKI .Identification of Some Optimal Parameters to Achieve Higher Laminate Quality through Tape Placement Process[J].Advances in Polymer Technology,2010(2):98-111. |
| [27] | R. Schledjewski .Thermoplastic tape placement process - in situ consolidation is reachable[J].Plastics, Rubber and Composites,2009(9/10):379-386. |
| [28] | Tamer Sinmazcelik;Onur Coban;Mustafa Ozgur Bora .The Effects of Thermal Cycles on the Impact Fatigue Properties of Thermoplastic Matrix Composites[J].Applied composite materials,2008(2):99-113. |
| [29] | 杨福生,赵延斌,吴靖.国外热塑性树脂基复合材料现状及发展趋势[J].吉林化工学院学报,2001(03):74-78. |
| [30] | Jorge Diaz;Luis Rubio .Developments to manufacture structural aeronautical parts in carbon fibre reinforced thermoplastic materials[J].Journal of Materials Processing Technology,2003(0):342-346. |
| [31] | Mark A. Lamontia;Steve B. Funck;Mark B. Gruber .Manufacturing Flat and Cylindrical Laminates and Built Up Structure Using Auto mated Thermoplastic Tape Laying, Fiber Placement, and Filament Winding[J].SAMPE Journal,2003(2):30-38. |
| [32] | 马世宁,许春霞,孙晓峰,欧忠文,刘朝辉.热固性树脂及其复合材料的微波固化研究[J].材料导报,2008(08):33-35,43. |
| [33] | BOEY F;GOSLING I;LYE S W .High-pressure microwave curing process for an epoxy-matrix glass-fiber composite[J].Journal of Materials Processing Technology,1992,29(1-3):311-319. |
| [34] | BOEY F;YUE C Y .Interfacial strength of a microwave-cured epoxy glass composite[J].Journal of Materials Science Letters,1991,10(22):1333-1334. |
| [35] | LEE W I;SPRINGER G S .Interaction of electromagnetic radiation with organic matrix composites[J].Journal of Composite Materials,1984,18(04):357-386. |
| [36] | LEE W I;SPRINGER G S .Microwave curing of composites[J].Journal of Composite Materials,1984,18(04):387-409. |
| [37] | Thostenson E.T.;Chou T.-W. .Microwave processing:fundamentals and applications[J].Composites, Part A. Applied science and manufacturing,1999(9):1055-1071. |
| [38] | C. Nightingale;R. J. Day .Flexural and interlaminar shear strength properties of carbon fibre/epoxy composites cured thermally and with microwave radiation[J].Composites, Part A. Applied science and manufacturing,2002(7):1021-1030. |
| [39] | BAI S L;DJAFARI V .Interfacial properties of microwave cured composites[J].Composites,1995,26(09):645-651. |
| [40] | Tartrattanakul V;Jaroendee D .Comparison between microwave and thermal curing of glass fiber-epoxy composites: Effect of microwave-heating cycle on mechanical properties[J].Journal of Applied Polymer Science,2006(2):1059-1070. |
| [41] | ARTHUR C L;FREDERICK C W;JAMES E K .Microwave heating for automated fiber placement of carbon fiber composites[J].British Ceramic Transactions,1993,21:539-546. |
| [42] | Methven JM.;Abidin AZ.;Ghaffariyan SR. .Manufacture of fiber-reinforced composites by microwave assisted pultrusion[J].Polymer Composites,2000(4):586-594. |
| [43] | D.A. Papargyris;R.J. Day;A. Nesbitt;D. Bakavos .Comparison of the mechanical and physical properties of a carbon fibre epoxy composite manufactured by resin transfer moulding using conventional and microwave heating[J].Composites science and technology,2008(7/8):1854-1861. |
| [44] | 许陆文.复合材料微波快速抢修技术在某重型战机抢修中的应用[J].中国表面工程,2006(z1):223-226. |
| [45] | 孙晓峰,马世宁,朱乃姝,钱海峰,胡春华.微波固化改性环氧树脂/碳纤维复合材料研究[J].材料工程,2008(z1):190-193,198. |
| [46] | Decker C. .Kinetic study and new applications of UV radiation curing [Review][J].Macromolecular rapid communications: Publishing the newsletters of the European Polymer Federation,2002(18):1067-1093. |
| [47] | DECKER C .UV-curing chemistry-past,present and future[J].Journal of Coatings Technology,1987,59(751):97-106. |
| [48] | Qiang Yuan;Ming-Bao Yang;Yiu-Wing Mai .ULTRAVIOLET CURING OF GLASS FIBRE REINFORCED POLYESTER COMPOSITES[J].Advanced composites letters,2000(5):341-346. |
| [49] | Decker C.;Moussa K. .UV-CURABLE ACRYLIC RESINS FOR PRODUCTION OF GLASS LAMINATES[J].Journal of Applied Polymer Science,1995(2):359-369. |
| [50] | MITCHELL S .UV curing processes for fiberglass composites[R].Maryland:Fusion UV Systems,Inc,2004. |
| [51] | LIVESAY M.Low cost manufacturing processes using UV cure resins[A].Anaheim,1997 |
| [52] | 王燕军 .玻璃纤维增强光固化树脂基复合材料固结工艺及性能研究[D].西安交通大学学报,2008. |
| [53] | 李甲 .纤维铺放紫外光原位固结复合材料层间强度研究[D].西安交通大学学报,2010. |
| [54] | TOLLE T B.Electron beam processing of composites:overview,benefits,and applications[J].IEEE Aerospace Applications Conference Proceedings,2000(04):201-206. |
| [55] | Xavier Coqueret;Mickael Krzeminski;Philippe Ponsaud .Recent advances in electron-beam curing of carbon fiber-reinforced composites[J].Radiation Physics and Chemistry,2009(7/8):557-561. |
| [56] | SAUNDERS C;LOPATA V;BARNARD J et al.Electron beam curing-taking good ideas to the manufacturing floor[J].Radiation Physics and Chemistry,2000,57(3-6):441-445. |
| [57] | BEREJKA A J;EBERLE C .Electron beam curing of composites in North America[J].Radiation Physics and Chemistry,2002,63(3-6):551-556. |
| [58] | LOPATA V J;SIDWELL D R .Electron beam processing for composite manufacturing and repair[R].Bethesda:Radtech Report,2003. |
| [59] | CIRRI G .Method of polymerising resins-uses electron beams to polymerise fluid layer applied to polymerised layer[P].Europe Patent:0514351 A1,1992-11-19. |
| [60] | GUASTI F;ROSI E .Low energy electron beam curing for thick composite production[J].Composites Part A-Applied Science and Technology,1997,28(11):965-969. |
| [61] | YEN A;WEISER E S .E-beam curing for in-situ automated tape placement[J].Materials-The Stat at Center Stage,1998,30:149-155. |
| [62] | Daniel L. Goodman;Catherine A. Byrne;Anna Yen;Richard Moulton;Doyle Dixon;Robert C. Costen .Automated tape placement with in-situ electron beam cure[J].SAMPE Journal,2000(2):11-17. |
| [63] | BYKANOV A N;GO)DMAN D L;BYRNE C A et al.Automated tape placement with in-situ electron beam cure:process parameters optimization[A].,2002,46:2127-2139. |
| [64] | KULSHRESHTHA A K;VASILE C.Handbook of polymer blends and composites[M].Shrewsbury:Smithers Rapra Technology,2002 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%