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Volume 27 Issue 3
Mar.  2001
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Journal of Beijing University of Aeronautics and Astronautics  > 2001  >  27(3): 254-256.
LI Min, ZHANG Zuo-guang, ZHONG Wei-hong, et al. Synthesis of Electron Beam Curing Resins[J]. Journal of Beijing University of Aeronautics and Astronautics, 2001, 27(3): 254-256. (in Chinese)
Citation: LI Min, ZHANG Zuo-guang, ZHONG Wei-hong, et al. Synthesis of Electron Beam Curing Resins[J]. Journal of Beijing University of Aeronautics and Astronautics, 2001, 27(3): 254-256. (in Chinese)
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Synthesis of Electron Beam Curing Resins

  • 1.

    Beijing University of Aeronautics and Astronautics, Dept. of Materials Science and Engineering

  • 2. Qingdao University, Dept. of Chemical Science and Engineering

  • Received Date: 30 Apr 2000
  • Publish Date: 31 Mar 2001
    Abstract
  • The use of electron beam (E-Beam) radiation to carry out rapid, pollution free, low energy crosslinking polymerizations of multifunctional vinyl monomers is an established technique. Polyimides and maleimides possess many useful properties such as high use temperature, excellent dimensional stability, low dielectric constants, and outstanding thermal and thermo-oxidative stability. Polyimides cured by electron beam radiation are conducted. In this work, to meet the requirement of electron beam curing polymerization, sensitive groups were introduced to monomers. Furthermore, the active diluents of siliceous acrylate, maleimide monomers and the aromatic imide monomers were synthesized. All of them were characterized by FTIR, so as the cured materials.

     

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    • References(1)
  • [1] Glauser T, Johansson M, Hult A. Electron-beam curing of thick thermoset composite matrices[J]. Polym, 1999,40:5297~6304. [2] Min Z, Qian X, Tsutomu T. Preparation and properties of novel poly(urethane-imide)s[J]. Polym, 1998,39:6883~6889. [3] Morel F, Devker C, Jonsson S,et al. Kinetic study of the photo-induced copolymerization of N-substituted maleimides with electron donor monomers[J].Polym, 1999,40:2447~2452. [4] Jefferson L H, David J T, Peter J P. Electron spin resonance study of the homopolymerization of aromatic bismaleimides[J]. Polym, 1998,39:5601~5067. [5] Takao L, Noriyuki Y, Masao T. Modification of two-component bismaleimids resin by blending (meth)allyl compounds as third components[J].Polym Int, 1999,(48):587~593. [6] Catherine A B, Daniel L G, Giuseppe R P, et al. Electron beam curable adhesive for out-of-autoclave bonding of large composite structures. In:Brown H L, Jones D H, eds. Proceeding of the 45th International SAMPE Symposium and Exhibition Science of Advanced Materials and Process Engineering Series. Long Beach:CA, 2000. 2187~2119. [7] James M S, Steven H M, Bruce K T. Interpenetrating polymer network (IPN) adhesives for electron beam cure. In:Brown H L, Jones D H, eds. Proceedings of the 45th International SAMPE Symposium and Exhibition Science of Advanced Materials and Process Engineering Series. Long Beach:CA, 2000.2211~2222. [8] Guasti F, Rosi E. Low energy electron beam curing for thick composite production[J]. Comp Part A, 1997, (28):965~972.
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