On Poisson’s functions of compressible elastomeric materials under compression tests in the framework of linear elasticity theory

“…Discussion about the compression behaviour of elastomer materials continues as other conditions are considered to the problem solving, and mathematical models' performance is compared against experimental testing data [23,24]. Other conditions studied include the influence of the boundary condition type, such as the existence of frictional contact between sample and plates [21,[25][26][27][28] and the application of non-linear models for large strains [29], for example.…”

Analysis of the Effect of Shape Factor on Cork–Rubber Composites under Small Strain Compression

“…Discussion about the compression behaviour of elastomer materials continues as other conditions are considered to the problem solving, and mathematical models' performance is compared against experimental testing data [23,24]. Other conditions studied include the influence of the boundary condition type, such as the existence of frictional contact between sample and plates [21,[25][26][27][28] and the application of non-linear models for large strains [29], for example.…”

Analysis of the Effect of Shape Factor on Cork–Rubber Composites under Small Strain Compression

“…In addition to the rubber low-temperature strain researches, some interesting facts about the influence of DBS on morphological changes under strain at ambient temperature were observed. Analysis of displacements of selected defects in Figure 2 showed that local elongation in studied zones significantly differ from macroscopic elongation of rubber, which indicates violation of theory of affine deformation of rubbers proposed by V. Kun and G. Kun [33, 34]. According to this theory, the deformation of supramolecular structures is proportional to macroscopic elongation.…”

Application of atomic force microscopy to the study of low-temperature strain of elastomeric materials

Effect of nonhomogeneity on compression of solid circular cylinders made of functionally graded incompressible neo-Hookean materials