This journal presents recent and creative advances dealing with any aspect of mechanics of materials and structures. It features original papers dealing with mechanical, mathematical, numerical and experimental analysis of structures and structural materials, both taken in the broadest sense. Annals of Solid and Structural Mechanics covers multi-scale, multi-field and multiple-media problems, including static and dynamic interaction. It also illustrates advanced and innovative applications to structural problems from science and engineering, including aerospace, civil, materials, mechanical engineering and living materials and structures. In addition, the journal includes special issues on specific topics as well as book reviews. It is both a reference and a powerful tool for those professionally active in the academic, industrial and governmental communities.
Annals of Solid and Structural Mechanics
Opis
Identyfikatory
ISSN | 1867-6936 |
e-ISSN | 1867-6944 |
DOI | 10.1007/12356.1867-6944 |
Wydawca
Springer Berlin Heidelberg
Informacje dodatkowe
Zbiór danych: Springer
Artykuły
Annals of Solid and Structural Mechanics > 2019 > 11 > 1-2 > 11-24
A formulation is presented for the 2D dynamic analysis and earthquake response simulation of base isolation systems. The approach is force-based and consists of casting the computation in each time increment as a convex optimization problem. Interaction between the two horizontal components of response is considered in an elegant and simple way through yield functions appearing as constraints of the...
Annals of Solid and Structural Mechanics > 2019 > 11 > 1-2 > 1-10
The paper deals with the derivation of non classical interface conditions in linear poroelasticity in the framework of the quasi-static diphasic Biot’s model. More precisely, we analyze the mechanical behavior of two linear isotropic poroelastic solids, bonded together by a thin layer, constituted by a linear isotropic poroelastic material, by means of an asymptotic analysis. After defining a small...
Annals of Solid and Structural Mechanics > 2018 > 10 > 1-2 > 1-16
A size-dependent model for bending and free vibration of functionally graded piezoelectric (FGP) microbeam is developed by using modified couple stress theory and a unified higher order beam theory. This model can be specialized to various beam models, such as Euler–Bernoulli, Timoshenko as well as Reddy beam ones and vice versa. The governing equations of motion and associated boundary conditions...