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Tytuł artykułu

Finite element modelling of the residual stresses in the ceramic-elastomer composites

Identyfikatory
Warianty tytułu
Konferencja
E-MRS 2004 Fall Meeting Warsaw, Poland , 6-10 September,2004
Języki publikacji
EN
Abstrakty
EN
Ceramic-elastomer composites are obtained by the infiltration of porous ceramics by an elastomer prior to the curing reaction at elevated temperatures. Because the elastomer and the ceramic have different expansion coefficients thermal stresses are generated during cooling to ambient temperature. In addition the elastomer contracts as it transforms from a mixture of the substrates in the liquid state to the solid state polymer with a covalently bonded network structure. These two phenomena result in the development of residual stresses in the composite. Residual stresses are of significant concern because they can cause damage in the form of cracks in the ceramic and delamination between the ceramic and the elastomer. They can also have an effect on the mechanical properties of the composite. The aim was to model in 3D space the residual stresses in the composites with two different interpenetrating phases. The Finite Element Method (FEM) was used to calculate the stresses.
Wydawca
Rocznik
Strony
529--534
Opis fizyczny
Bibliogr.14 poz.
Twórcy
  • Warsaw University of Technology, Faculty of Materials Science and Engineering, Warsaw, Poland
autor
  • Warsaw University of Technology, Faculty of Materials Science and Engineering, Warsaw, Poland
autor
  • Warsaw University of Technology, Faculty of Materials Science and Engineering, Warsaw, Poland
  • Warsaw University of Technology, Institute of Aeronautics and Applied Mechanics, Warsaw, Poland
  • Warsaw University of Technology, Faculty of Materials Science and Engineering, Warsaw, Poland
Bibliografia
  • [1] SZAFRAN M., BOCZKOWSKA A., KONOPKA K., KURZYDŁOWSKI K., ROKICKI G., BATORSKI K., PL patent No. P.353130 (2002).
  • [2] KONOPKA K., BOCZKOWSKA A., BATORSKI K., SZAFRAN M., KURZYDŁOWSKI K.J., Mater. Lett., 58 (2004), 3857.
  • [3] KONOPKA K., BOCZKOWSKA A., SZAFRAN M., KURZYDŁOWSKI K.J., Kompozyty, 7 (2003), 216.
  • [4] KONOPKA K., BOCZKOWSKA A., BATORSKI K., KURZYDŁOWSKI K.J., SZAFRAN M., Kompozyty, 3 (2002), 108.
  • [5] BOCZKOWSKA A., KONOPKA K., KURZYDŁOWSKI K.J., 12th Achievements in Mechanical & Materials Engineering, AMME 2003, Zakopane, Conference Proceedings, p. 111.
  • [6] KONOPKA K., BOCZKOWSKA A., SZAFRAN M., KURZYDŁOWSKI K.J., European Congress and Exhibition on Advanced Materials and Processes Euromat 2003, Lozanna.
  • [7] PL Patent 148 671 (1990).
  • [8] PL Patent 150 154 (1991).
  • [9] BOCZKOWSKA A., KAPUŚCIŃSKI J., LINDEMANN Z., WITEMBERG-PERZYK D., WOJCIECHOWSKI S., Kompozyty, II Ed., Oficyna Wydawnicza PW, Warszawa, 2003.
  • [10] BOCZKOWSKA A., KONOPKA K., KURZYDŁOWSKI K.J., Materiały polimerowe Pomerania-Plast, 2004, Szczecin, Conference Proceedings, 65.
  • [11] BOCZKOWSKA A., KONOPKA K., SCHMIDT J., KURZYDŁOWSKI K.J., Kompozyty, 9 (2004), 41.
  • [12] GOLAŃSKI D., Kompozyty, 2 (2002), 5.
  • [13] CHOO H., BOURKE M.A.M., Evolution of thermal residual stress in intermetallic matrix composites during heating; Ceramic Engineering and Science Proc. ACerS, 21 (2000), 627.
  • [14] KURZYDŁOWSKI K.J., RALPH B., Quantitative Description of Microstructure of Materials, CRC Press, Boca Raton, FL, 1995
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPW7-0002-0051
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