Juha Jeronen scite author profile

a b s t r a c tProblems of stability of an axially moving elastic band travelling at constant velocity between two supports and experiencing small transverse vibrations are considered in a 2D formulation. The model of a thin elastic plate subjected to bending and tension is used to describe the bending moment and the distribution of membrane forces. The stability of the plate is investigated with the help of an analytical approach. In the frame of a general dynamic analysis, it is shown that the onset of instability takes place in the form of divergence (buckling). Then the static forms of instability are investigated, and critical regimes are studied as functions of geometric and mechanical problem parameters. It is shown that in the limit of a narrow strip, the 2D formulation reduces to the classical 1D model. In the limit of a wide band, there is a small but finite discrepancy between the results given by the 1D model and the full 2D formulation, where the discrepancy depends on the Poisson ratio of the material. Finally, the results are illustrated via numerical examples, and it is observed that the transverse displacement becomes localised in the vicinity of free boundaries.

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Mechanics of Moving Materials

Баничук¹,

Jeronen²,

Neittaanmäki³

et al. 2014

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PrefaceMechanics of moving materials is currently attracting considerable attention.Interest in research in the eld has grown in connection with the rapid development of process industry and precision machinery, especially in the eld of paper making.Specialized areas of investigation include dynamics and mechanical stability of travelling elastic materials, failure and reliability analysis, including modern fracture mechanics, and runnability optimization problems taking into account factors of uncertainty and incomplete data.Problems of mechanics of moving materials have not only practical but also theoretical importance. The investigation into new types of mathematical problems is interesting in itself. It is noteworthy that there are some nonconservative stability problems, and runnability optimization problems under fracture and stability constraints with uncertainties in positioning and sizes of initial defects (cracks), for which there are no systematic techniques of investigation. The most appropriate approach to tackle the complex problem varies depending on the case.This monograph is devoted to the exposition of new ways of formulating and solving problems of mechanics of moving materials. We present some research results concerning dynamics of travelling elastic strings, membranes, panels and plates. We study mechanical stability of axially moving elastic panels, accounting for the interaction between the structural element and its environment, such as axial potential ow. Most of the attention in this book is devoted to out-of-plane dynamics and stability analysis for isotropic and orthotropic travelling elastic and viscoelastic materials, with and without uid-structure interaction, using analytical and numerical approaches. Also such topics as fracture and fatigue are discussed in the context of moving materials. The last part of the book deals with some runnability optimization problems with physical constraints arising from the stability and fatigue analyses including uncertainties in the parameters. The approach taken in this monograph is to proceed analytically as far as is reasonable, and only then nish the investigation numerically.In this book, we oer a systematic and careful development of many aspects of mechanics of travelling materials, particularly for panels and plates.Some of the presented results are new, and some have appeared only in specialized journals or in conference proceedings. Some aspects of the theory presented here, such as the semi-analytical treatment of the uidstructure interaction problem of a travelling panel, studies of spectral problems with free boundary singularities, and optimization of problem parameters under crack growth and instability constraints have not been considered before to any extent.Important new results relate to optimization of runnability with a longevity constraint. Damage accumulation is modelled using the theory of fatigue crack growth, with the travelling material element subjected to cyclic load-3 ing. Uncertainties must be accounted for, beca...

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Theoretical study on travelling web dynamics and instability under non-homogeneous tension

Баничук

Jeronen

Neittaanmäki

et al. 2013

International Journal of Mechanical Sciences

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Dynamic analysis for axially moving viscoelastic panels

Saksa

Баничук

Jeronen

et al. 2012

International Journal of Solids and Structures

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Static instability analysis for travelling membranes and plates interacting with axially moving ideal fluid

Баничук

Jeronen

Neittaanmäki

et al. 2010

Journal of Fluids and Structures

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Juha Jeronen

On the instability of an axially moving elastic plate

Mechanics of Moving Materials

Theoretical study on travelling web dynamics and instability under non-homogeneous tension

Dynamic analysis for axially moving viscoelastic panels

Static instability analysis for travelling membranes and plates interacting with axially moving ideal fluid

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