Finite element simulations of rubbers and biological soft tissue usually assume that the material being deformed is slightly compressible. It is shown here that, in shearing deformations, the corresponding normal stress distribution can exhibit extreme sensitivity to changes in Poisson’s ratio. These changes can even lead to a reversal of the usual Poynting effect. Therefore, the usual practice of arbitrarily choosing a value of Poisson’s ratio when numerically modelling rubbers and soft tissue will, almost certainly, lead to a signifi-cant difference between the simulated and actual normal stresses in a sheared block because of the difference between the assumed and actual value of Poisson’s ratio. The worrying conclusion is that simulatio...
Tissues' nearly incompressibility was well reported in the literature but little effort has been mad...
Poisson's ratio is an elastic constant defined as the ratio of thelateral contraction to the elongat...
Realistic modelling of the interaction between surgical instruments and human organs has been recogn...
Finite element simulations of rubbers and biological soft tissue usually assume that the material be...
Abstract—Many soft tissues are considered to be virtually incompressible. A number of recent analyse...
Rubbery foams and similar highly compressible rubbery solids form an important class of materials fo...
Finite element simulations of different shear deformations in non-linear elasticity are presented. W...
Incompressible nonlinearly hyperelastic materials are rarely simulated in finite element numerical e...
Abstract We identify three distinct shearing modes for simple shear deformations of transversely iso...
Poisson’s ratio is of crucial importance for the theoretical and numerical analysis of rock engineer...
Poisson's ratio is defined strictly on the assumption that the material is homogeneous. In applicati...
A Study of the effect of Poisson's ratio on the stationary mode I crack tip fields in amorphous allo...
In comparing a material's resistance to distort under mechanical load rather than to alter in volume...
A study of the effect of Poisson’s ratio on the stationary mode I crack tip fields in amorphous allo...
Elastic simulations of single-crystal copper nanobeams, of different cross section sizes and with cr...
Tissues' nearly incompressibility was well reported in the literature but little effort has been mad...
Poisson's ratio is an elastic constant defined as the ratio of thelateral contraction to the elongat...
Realistic modelling of the interaction between surgical instruments and human organs has been recogn...
Finite element simulations of rubbers and biological soft tissue usually assume that the material be...
Abstract—Many soft tissues are considered to be virtually incompressible. A number of recent analyse...
Rubbery foams and similar highly compressible rubbery solids form an important class of materials fo...
Finite element simulations of different shear deformations in non-linear elasticity are presented. W...
Incompressible nonlinearly hyperelastic materials are rarely simulated in finite element numerical e...
Abstract We identify three distinct shearing modes for simple shear deformations of transversely iso...
Poisson’s ratio is of crucial importance for the theoretical and numerical analysis of rock engineer...
Poisson's ratio is defined strictly on the assumption that the material is homogeneous. In applicati...
A Study of the effect of Poisson's ratio on the stationary mode I crack tip fields in amorphous allo...
In comparing a material's resistance to distort under mechanical load rather than to alter in volume...
A study of the effect of Poisson’s ratio on the stationary mode I crack tip fields in amorphous allo...
Elastic simulations of single-crystal copper nanobeams, of different cross section sizes and with cr...
Tissues' nearly incompressibility was well reported in the literature but little effort has been mad...
Poisson's ratio is an elastic constant defined as the ratio of thelateral contraction to the elongat...
Realistic modelling of the interaction between surgical instruments and human organs has been recogn...