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Flexural Properties of Grooved Perforation Sandwich Composites

Flexural Properties of Grooved Perforation Sandwich Composites
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摘要 Selecting H-60 PVC foam, four-axis E-glass non-woven fabric and vinyl resin, a type of innovative reinforced sandwich composite as grooved perforation sandwich (GPS) were fabricated by VIMP. The interfacial structure between the face and core of the sandwich is innovative because of the acuminate grooves in both sides of foam core and the holes perforated along core’s height. The fabrication results show that VIMP is a high-speed and cost-effective manufacturing method. The mechanical properties of the reinforced foam core were tested. The typical flexural failure modes of sandwich specimens were observed. The flexural stiffness and ultimate bearing capacity of sandwich were studied by ordinary sandwich beam theory and finite element method. Selecting H-60 PVC foam, four-axis E-glass non-woven fabric and vinyl resin, a type of innovative reinforced sandwich composite as grooved perforation sandwich (GPS) were fabricated by VIMP. The interfacial structure between the face and core of the sandwich is innovative because of the acuminate grooves in both sides of foam core and the holes perforated along core’s height. The fabrication results show that VIMP is a high-speed and cost-effective manufacturing method. The mechanical properties of the reinforced foam core were tested. The typical flexural failure modes of sandwich specimens were observed. The flexural stiffness and ultimate bearing capacity of sandwich were studied by ordinary sandwich beam theory and finite element method.
作者 方海
出处 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2010年第4期583-587,共5页 武汉理工大学学报(材料科学英文版)
基金 Funded by the Special Prophase Project on Basic Research of The Na-tional Department of Scientific and Technology(No. 2008CB617613) the National Natural Science Foundation of China (No. 50978134) the Research Award Fund for Young Teachers of Nanjing University of Technology
关键词 vacuum infusion molding process (VIMP) grooved perforation sandwich (GPS) sandwich composite flexural properties vacuum infusion molding process (VIMP) grooved perforation sandwich (GPS) sandwich composite flexural properties
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  • 1Goubalt P,Mayes S.Comparative analysis metal and composite materials for the primary structure of a patrol boat[J].Naval Eng.J.,1996.108(3):387~97.
  • 2Makinen K.The development of sandwich structures for naval vessels during years[J].Mechanics of sandwich structures,1988,5:13~28.
  • 3Alm F.GRP versus steel in ship construction[J].Naval forces,1983,4(5):82~86.
  • 4Dixon RH.Ramsey BW,Usher PJ.Design and build of the GRP hull of HMS Wilton[C].RINA Symposium on GRP ship Construction,London;1972:1~32.
  • 5Smith CS.Design of marine structures in composite materials[C].London:Elsevier Applied Science;1990.
  • 6Potential for composites application in the marine industry[C].In:Proceedings of the National Conference on the Use of Composite Materials in Load-Bearing Marine Structures,Alington,Virginia.
  • 7Brown D K..Design considerations for MCMV[J].Naval forces,1990,11(1):31~38.
  • 8Pfund B.Building big in advanced composites[J].Prof.Boatbuilder,1998,53:40~49.
  • 9Mulligan R D,Courts M D.Corvette design considerations[C].In:proceedings of warship'98.International symposium on surface warships:The next generation,London,1998,6:11~12.
  • 10Sharpe R.Jane's fighting ships 2001~2002[DB].Coulsdon,UK:Jane's information group limited,2002.

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