• Title of article

    Computational and Experimental Study of the Composite ‎Material for the Centrifugal Pump Impellers Manufacturing

  • Author/Authors

    Isametova ، Madina Department of Mechanical Engineering, Standardization, Certification and Metrology - Institute of Energy and Mechanical Engineering - Satbayev University , Nussipali ، Rollan Department of Mechanical Engineering, Standardization, Certification and Metrology - Institute of Energy and Mechanical Engineering - Satbayev University , Karaivanov ، Dimitar Department of Applied Mechanics - University of Chemical Technology and Metallurgy , Abilkhair ، Zhastalap Department of Mechanical Engineering, Standardization, Certification and Metrology - Institute of Energy and Mechanical Engineering - Satbayev University , Isametov ، Aysen Department of Mechanical Engineering, Standardization, Certification and Metrology - Institute of Energy and Mechanical Engineering - Satbayev University

  • From page
    1407
  • To page
    1421
  • Abstract
    The mechanical properties of a polycarbonate matrix composite with glass fiber reinforcements used for the manufacture of a multistage centrifugal pump impeller are researched in this article. The material properties are modelled using DIGIMAT (The Material Modelling Platform) to determine the strain resistance of the composite with different proportions of reinforcements. The Tsai–Hill failure criterion is used to determine the strength in all cases. The results have been verified by physical testing to determine the influence of the shape and mass proportion of reinforcements on its mechanical properties. The strength of the manufactured part is correlated to technological factors using the MARC MENTAT solver, and the most and the least favorable combinations of these factors are determined.
  • Keywords
    Impeller , polymer , composite materials , mechanical schematic , stress , strain
  • Journal title
    Journal of Applied and Computational Mechanics
  • Journal title
    Journal of Applied and Computational Mechanics
  • Record number

    2719357