6533b7ddfe1ef96bd127530f
RESEARCH PRODUCT
On the limit velocity and buckling phenomena of axially moving orthotropic membranes and plates
Nikolay BanichukJuha JeronenTero TuovinenPekka NeittaanmäkiTytti SaksaMatti Kurkisubject
levyaxially movingleikkausmoduuliGeometryParameter spaceOrthotropic materialshear modulusMaterials Science(all)Modelling and SimulationBallistic limitGeneral Materials Sciencekalvoorthotropicta216membraneEigenvalues and eigenvectorsMathematicsMechanical EngineeringApplied MathematicsMathematical analysisplateta111Static analysisSolverCondensed Matter PhysicsBucklingortotrooppisuusaksiaalisesti liikkuvaMechanics of MaterialsModeling and SimulationAxial symmetrydescription
In this paper, we consider the static stability problems of axially moving orthotropic membranes and plates. The study is motivated by paper production processes, as paper has a fiber structure which can be described as orthotropic on the macroscopic level. The moving web is modeled as an axially moving orthotropic plate. The original dynamic plate problem is reduced to a two-dimensional spectral problem for static stability analysis, and solved using analytical techniques. As a result, the minimal eigenvalue and the corresponding buckling mode are found. It is observed that the buckling mode has a shape localized in the regions close to the free boundaries. The localization effect is demonstrated with the help of numerical examples. It is seen that the in-plane shear modulus affects the strength of this phenomenon. The behavior of the solution is investigated analytically. It is shown that the eigenvalues of the cross-sectional spectral problem are nonnegative. The analytical approach allows for a fast solver, which can then be used for applications such as statistical uncertainty and sensitivity analysis, real-time parameter space exploration, and finding optimal values for design parameters. peerReviewed
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2011-06-01 | International Journal of Solids and Structures |