Now showing items 1-8 of 8

    • Deficiencies in numerical models of anisotropic nonlinearly elastic materials 

      Ní Annaidh, Aisling; Destrade, Michel; Gilchrist, M.; Murphy, J.G. (Springer, 2013-08)
      Incompressible nonlinearly hyperelastic materials are rarely simulated in finite element numerical experiments as being perfectly incompressible because of the numerical difficulties associated with globally satisfying ...
    • Initial stress symmetry and its applications in elasticity 

      Gower, Artur Lewis; Destrade, Michel (The Royal Society, 2015-10-28)
      An initial stress within a solid can arise to support external loads or from processes such as thermal expansion in inert matter or growth and remodelling in living materials. For this reason, it is useful to develop a ...
    • Mechanics of human brain organoids 

      Balbi, Valentina; Destrade, Michel; Goriely, Alain (American Physical Society, 2020-01-02)
      Organoids are prototypes of human organs derived from cultured human stem cells. They provide a reliable and accurate experimental model to study the physical mechanisms underlying the early developmental stages of human ...
    • Methodical fitting for mathematical models of rubber-like materials 

      Destrade, Michel; Saccomandi, Giuseppe; Sgura, Ivonne (The Royal Society Publishing, 2017-02-08)
      A great variety of models can describe the nonlinear response of rubber to uniaxial tension. Yet an in-depth understanding of the successive stages of large extension is still lacking. We show that the response can be ...
    • On residual stresses and homeostasis: an elastic theory of functional adaptation in living matter 

      Ciarletta, Pasquale; Destrade, Michel; Gower, Artur L. (Nature Publishing Group, 2016-04-26)
      Living matter can functionally adapt to external physical factors by developing internal tensions, easily revealed by cutting experiments. Nonetheless, residual stresses intrinsically have a complex spatial distribution, ...
    • On the role of the actin cytoskeleton and nucleus in the biomechanical response of spread cells 

      Reynolds, Noel H.; Ronan, William; Dowling, Enda P.; McMeeking, Robert M.; McGarry, J. Patrick (Elsevier, 2014-02-11)
      Micropipette aspiration (MA) has been used extensively in biomechanical investigations of un-adhered cells suspended in media. In the current study, a custom MA system is developed to aspirate substrate adhered spread ...
    • Stability enhancement of an atomic force microscope for long-term force measurement including cantilever modification for whole cell deformation 

      McGarry, J. Patrick; Weafer, Paul; Ronan, William; Nolan, D. R. (2012)
      Atomic force microscopy (AFM) is widely used in the study of both morphology and mechanical properties of living cells under physiologically relevant conditions. However, quantitative experiments on timescales of minutes ...
    • Waves, wrinkles and creases in deformed soft solids 

      Mangan, Robert (NUI Galway, 2018-07-10)
      This article-based thesis comprises a collection of four articles, each of which constitutes a chapter written and formatted in pre-print manuscript form. The general aim underlying these articles is to model the large ...