. "RIV/00216305:26210/03:PU41540" . . . "RIV/00216305:26210/03:PU41540!RIV11-MSM-26210___" . "Czech Society for Mechanics" . . "Milovy" . "[9FA05CBE5567]" . "2"^^ . "Computational Simulation and Accuracy Analysis of Unconventional Experimental Method for Equibiaxial Stress-Strain Dependence Investigation of Elastomers" . "Computational Simulation and Accuracy Analysis of Unconventional Experimental Method for Equibiaxial Stress-Strain Dependence Investigation of Elastomers" . . . . "2"^^ . . "Computational Simulation and Accuracy Analysis of Unconventional Experimental Method for Equibiaxial Stress-Strain Dependence Investigation of Elastomers"@en . . . . "Experimental Stress Analysis 2003" . "2"^^ . "Bur\u0161a, Ji\u0159\u00ED" . "601913" . . . . "N, V, Z(MSM 262100001)" . . "26210" . . . "2003-06-03+02:00"^^ . "The knowledge of the stress-strain behaviour of elastomers in basic modes is necessary for credible numerical modelling of their mechanical response. One of the stress-strain characteristics needed is the so-called equibiaxial characteristic. Usually the experimental determination of such characteristic is not easy because of the high requirements on the experimental equipment. This paper deals with an unpretentious experimental technique for measuring of equibiaxial stress-strain dependence of elastomers. The method is numerically simulated using FEM, compared to standard methods and its accuracy and practical usefulness is analyzed. The technique could also be used for equibiaxial strength measuring." . . "equibiaxial tension, equibiaxial strength, elastomers, rubber, numerical modelling, FEM"@en . "Milovy, CZ" . "Computational Simulation and Accuracy Analysis of Unconventional Experimental Method for Equibiaxial Stress-Strain Dependence Investigation of Elastomers"@en . "Sk\u00E1cel, Pavel" . "The knowledge of the stress-strain behaviour of elastomers in basic modes is necessary for credible numerical modelling of their mechanical response. One of the stress-strain characteristics needed is the so-called equibiaxial characteristic. Usually the experimental determination of such characteristic is not easy because of the high requirements on the experimental equipment. This paper deals with an unpretentious experimental technique for measuring of equibiaxial stress-strain dependence of elastomers. The method is numerically simulated using FEM, compared to standard methods and its accuracy and practical usefulness is analyzed. The technique could also be used for equibiaxial strength measuring."@en . . . "80-214-2314-5" . . .