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TAN Bi-en, YI Xiao-su. High-temperature polyimide composites and its application in aeronautical engine[J]. Journal of Aeronautical Materials, 2001, 21(1): 55-62.
Citation: TAN Bi-en, YI Xiao-su. High-temperature polyimide composites and its application in aeronautical engine[J]. Journal of Aeronautical Materials, 2001, 21(1): 55-62.
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High-temperature polyimide composites and its application in aeronautical engine

  • National Key Laboratory of Advanced Composites,Institute of Aeronautical Materials,Beijing 100095,China

  • Received Date: 2000-03-29
  • Rev Recd Date: 2001-01-05
  • Publish Date: 2001-02-01
    Abstract
  • This paper reviewed the progress of high-temperature PMR type polyimide matrix composites, and summarized its application in aeronautical engine field.

     

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    • References(34)
  • [1] MEADOR M A. High temperature polymer matrix composites for aeropropulsion applications [C]. 40th International SAMPE Symposium May 8-11, Society for the Advancement of Material and Process Engineer ing, 1995,268-276.
    [2] NASA Facts. High temperature polymer matrix com posites[R]. Langley Research center, 1996
    [3] CAVANO P J, SCHMID T E. Current and Future En gine Applications of Gr/PI Composites [R]. N86-11260, National Aeronautics and Space Administration, 1985. 409-416.
    [4] NIN M C Y. Composites Airframe Strucyres[M]. Commilit Press LTD, ISBN 962-128-06-6(1992)
    [5] 陈祥宝.高性能树脂基体[M].北京:化学工业出版 社,1999.187-189.
    [6] 丁孟贤,何天白.聚酰亚胺新型材料[M].北京:科学 出版社,1998.69.
    [7] SERAFINI T T, DELVIGS P, et al. J Appl Polym Sci, 1972. 16:905.
    [8] LABRONICI M, ISHIDA H. Effect of degree of cure and fiber content on the mechanical and dynamic me chanical properties of carbon fiber reinforced PMR-15 polyimide composites[J ]. Polymer Composites, 1999. 20(4): 515-523.
    [9] YANG S Y, GAO S Q, LI J Z. Short carbon fiber-rein forced PMR-15 polyimide composites[J]. Society for the Advancement of Material and Process Engineer ing, Materials and Process Affordability: Keys to the Future. 1998(6),43. I (USA), 181-189.
    [10] HIRT D E. Mechanical properties of interleaved PMR-15 composites[J]. J Adv Mater, 1995 (1), 26 (2):48-53.
    [11] BOWLES K J, MADHUKAR M. Papadopoulos. DS Thermo-oxidative stability of graphite/PMR-15 com posites: the effects of fiber surface modification on composite mode Ⅱ fracture toughness[C]. Society for the Advancement of Material and Process Engineer ing(USA), 1995. 1879-1892.
    [12] KOHLI D K, Mayhew R T, Peake S L. Development of 288 deg C (550 deg F) service non-MDA poly imide adhesives for aerospace bonding applications. [C]. Society for the Advancement of Material and Process Engineering USA, 19951161-1169.
    [13] CAMBERLIN Y, GIRAUD Y, LOPEZ P. Solvent and MDA-Free Polyimide Matrices: Latest Develop ments of Kerimid Resins for Structural Advanced Composites[C]. Society for the Advancement of Material and Process Engineering, 1988. 1593-1603.
    [14] ALSTON W B. Replacement of MDA With More Oxidatively Stable Diamines in PMR-Polyimides [R]. National Aeronautics and Space Administra tion, 1985. 187-205.
    [15] PATER R H. Interpentrating Polymer Network Ap proach to Tough and Microcracking Resistant High Temperature Polymers. Ⅱ. LaRC-RP41[J].Polymer Engineering and Science, 1991,31(1):20-27.
    [16] SCOLA D A, VONTELL J H. Mechanical Properties and Mechanism of the Degradation Process of 316 deg C Isothermally Aged Graphite Fiber/PMR-15 Com posites[J]. Polymer Engineering and Science, 1991, 31(1),6-13.
    [17] HINKLEY J A, NELSON J B. Lifetime Extrapolation of PMR-15 and LaRC-160 Graphite Composites [J ]. Journal of Advanced Materials, 1994,25(3): 45-48.
    [18] SCOLA D A. Molecular Characterization of Composite Interface [M], Polymer Science and Technology Series, 1985,27, 423-444.
    [19] XIAO Y, SCOLA D. Microwave cure of graphite fiber/polyimide composites [M]. American Chemical Society (USA), i995.344-345.
    [20] CHUANG K C, VANNUCCI R D. Effects of a Non coplanar Biphenyldiamine on the Processing and Properties of Addition Polyimides[J], Polymer Preprints (USA), 1992,33(1):435-436.
    [21] VASAT J L. KARDOS J L, Devolatilization in the processing of AFR700B polyimide resin composites [C]. Society for the Advancement of Material and Process Engiheering, 1997. 665-674.
    [22] CORNELIA D. Hygrothermal Performance of Poly imides[C]. Society for the Advancement of Material and Process Engineering, 1994.917-929
    [23] NASA Facts. The high temperature polymer of future[R], Langley Research center, 1996.
    [24] HARDING D R, SUTTER J K, PAPADOPOULOS D S. Protective Coatings for High-Temperature Poly mer Matrix Composites[C]. Society for the Advancement of Material and Process Engineering, 1993. 514-527.
    [25] GULINO D A,MILLER L M,NEOGI S. Al2O3 and Al2O3/SiO2 coatings for high temperature thermal oxidative stability of polyimide composites [R]. National Aeronautics and Space Administration, 1992.7(1)-7(14).
    [26] NAIK S K, et al. Erosion Coatings for High Tem perature Polymer Composites[C]. Proceedings of the 44th International SAMPE Symposium, 1999, 44 (1), 68-81.
    [27] DUGGERJEFFREY A. Hirt, DouglasE. PMR-15/ carbon fiber composites produced from powder-ooated towpreg[J]. Polymer Composites 1996,17(3)492-496.
    [28] SALEMME CHARLES, Armstrong Douglas, Sar gent. Kathleen. Low cost processing of high tem perature polyimides[C], In: Advanced materials & processes-Preparing for the new millennium; Proceedings of the 31st International SAMPE Technical Conference, Chicago, IL, Oct. 26-30, 1999 (A00-11307 01-31), Covina, CA, Society for the Advancement of Material and Process Engineer ing (International SAMPE Technical Conference Se ries. 1999.31:286-295.
    [29] DANE L M,BROUWER R. A Resin Transfer Moul ded Graphite Bismaleimide Composite EngineCowling Beam[C]. Society for the Advancement of Material and Process Engineering, 1988. 1217-1228.
    [30] STOTLLER C L. Quite Powed-Lift Propulsion [R], NASA CP-2077, 1979.83-109.
    [31] MCDANELS D L, SERAFINI T T, DICARLO J A. Polymer, metal, and ceramic matrix composites for advanced aircraft engine applications[R], N86-13407.
    [32] PRATT R D, WILSON A J. Fabrication Process of a High Temperature Polymer Matrix Engine Duct, N86-11620, 401~407.
    [33] POSTLEWAITE J, PORTER K, MCLAREN. Ap plication of Gr/PMR-15 to Commercial Aircraft Propulsion Installation Structures[R], N86-11620, 393-400.
    [34] MEADOR M A. High temperature polymer matrix oomposites for aeropropulsion applications[C], Soci ety for the Advancement of Material and Process En gineering, 1995. 268-276.
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