• Title of article

    An introduction and tutorial on multiple-scale analysis in solids Original Research Article

  • Author/Authors

    Harold S. Park، نويسنده , , Wing Kam Liu، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2004
  • Pages
    40
  • From page
    1733
  • To page
    1772
  • Abstract
    Concurrent multiple-scale methods can be defined as those which combine information available from distinct length and time scales into a single coherent, coupled simulation. These methods have recently become both popular and necessary for the following reasons. One is the recent discovery of new, nanoscale materials, and the corresponding boom in nanotechnology research. Another factor is that experiments have conclusively shown the connection between microscale physics and macroscale deformation. Finally, the concept of linking disparate length and time scales has become feasible recently due to the ongoing explosion in computational power. We present a detailed introduction to the available technologies in the field of multiple-scale analysis. In particular, our review centers on methods which aim to couple molecular-level simulations (such as molecular dynamics) to continuum level simulations (such as finite element and meshfree methods). Using this definition, we first review existing multiple-scale technology, and explain the pertinent issues in creating an efficient yet accurate multiple-scale method. Following the review, we highlight a new multiple-scale method, the bridging scale, and compare it to existing multiple-scale methods. Next, we show example problems in which the bridging scale is applied to fully non-linear problems. Concluding remarks address the research needs for multiple-scale methods in general, the bridging scale method in particular, and potential applications for the bridging scale.
  • Keywords
    Multiple-scale simulations , Bridging scale , Coupling methods , molecular dynamics , Finite elements , Non-linear
  • Journal title
    Computer Methods in Applied Mechanics and Engineering
  • Serial Year
    2004
  • Journal title
    Computer Methods in Applied Mechanics and Engineering
  • Record number

    892985