• A. Maniatty, P. Karvani, D. Pyle
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    The macroscale mechanical behaviour of crystalline materials, such as polycrystalline metals and single crystal semiconductors, is dictated by the anisotropic behaviour of [...]

  • D. Kochmann
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    Dislocation interactions and failure mechanisms at mesoscopic length scales of metallic materials are usually out of reach of atomistic simulations, thus requiring effective [...]

  • P. Coulier, G. Lombaert, G. Degrande
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    In civil engineering, and more particularly in structural mechanics, computational tools are used to understand and predict the behaviour of complete structures (bridges, [...]

  • Z. Zhuang, Z. Liu, Y. Cui
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    Plastic flow in crystal at micron-nano scales involves many new interesting issues. Some results are obtained for uniaxial compression experiments conducted on FCC single [...]

  • A. Needleman, A. Srivastava, S. Osovski
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    Two fundamental questions in the mechanics and physics of fracture are: (i) What is the relation between observable features of a material’s microstructure and its resistance [...]

  • O. Allix
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    In the last decade, many innovative modeling or solution techniques have been introduced in the field of computational mechanics. These techniques, such as enriched finite [...]

  • M. Ortiz, T. Kirchdoerfer
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    We develop a new computing paradigm, which we refer to as data-driven computing, according to which calculations are carried out directly from experimental material data and [...]

  • K. Terada, S. Matsubara, S. Nishi
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    The methods of two-scale analysis based on the method of numerical material testing (NMT) and plate testing (NPT) have indisputable superiority over FE2 -type micro-macro [...]

  • P. Wriggers, S. Löhnert, E. Lehmann
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    The presentation is aimed to cover areas related to modeling of material behaviour using different numerical schemes. Special emphasis is laid on homogenization procedures [...]

  • F. Chinesta
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    Despite the impressive progresses attained by simulation capabilities and techniques, some challenging problems remain today intractable. These problems, that are common to [...]

  • J. Schröder, M. Labusch, M. Keip
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    Coupling between electric and magnetic fields enables smart new devices and may find application in sensor technology and data storage. Materials showing magneto-electric [...]

  • J. Oliver, J. Cante, A. Ferrer
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    Multiscale topological material design, aiming at obtaining optimal distribution of the material at several scales in structural materials is still a challenge. In this case, [...]

  • A. Radermacher, S. Reese, J. Kochmann, S. Wulfinghoff
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    The necessity to provide physically reasonable and mathematically sound descriptions of mechanical behaviour at different scales is without discussion. Nevertheless, for engineering [...]

  • M. Borden, T. Hughes, C. Landis
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    The phase-field approach to predicting crack initiation and propagation relies on a damage accumulation function to describe the phase, or state, of fracturing material. The [...]

  • A. Gens, M. Ciantia, M. Arroyo
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    The mechanical behavior of granular materials is characterized by strong non-linearity and irreversibility. These properties have been described by a variety of constitutive [...]

  • W. Liu, O. Kafka, W. Xiong, Z. Liu, W. Yan, J. Smith, P. Cheng
    Presentations to the XIII International Conference on Computational Plasticity (COMPLAS 2015).

    Abstract
    Additive manufacturing (AM) processes have the ability to build complex geometries from a wide variety of materials. A popular approach for metal-based AM processes involves [...]

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