Add to ORKGnone3noA numerical approach is developed to deal with arbitrarily shaped structures. Two different methodologies are used to this aim, which are based on the Differential Quadrature and Integral Quadrature methods, respectively. These numerical methods are able to approximate both derivatives and integrals [1]. Therefore, the strong and weak formulations of the governing equations can be solved. As shown in the paper [2], these approaches are accurate, reliable and stable, when employed to obtain the mechanical response of various kinds of structures, such as plates, shells and membranes. In particular, their effectiveness is proven by means of the comparison with the analytical solutions available in the literature, both for isotropic and ...
none4noDOI dell'intero volume: 10.15651/978-88-748-8963-1Recently it has been proven that differenti...
none3noThe aim of this work is to investigate and compare the accuracy and convergence behavior of t...
The main aim of the paper is to present a new numerical method to solve the weak formulation of the ...
A numerical approach is developed to deal with arbitrarily shaped structures. Two different methodol...
Several applications in many engineering fields need particular structural elements characterized by...
none3noA numerical solution is sought for many engineering applications since it is not always possi...
none2noEngineering applications in conventional numerical modeling are investigated by domain decomp...
The authors are presenting a novel formulation based on the Differential Quadrature (DQ) method whic...
This paper provides a new technique for solving the static analysis of arbitrarily shaped composite ...
It is well known that many applications in several fields of engineering cannot be solved analytical...
This paper provides a new technique for solving the static analysis of arbitrarily shaped composite ...
The problem of thin and thick plates has been historically solved considering simple geometries. How...
none4noDOI dell'intero volume: 10.15651/978-88-748-8963-1Recently it has been proven that differenti...
none3noThe aim of this work is to investigate and compare the accuracy and convergence behavior of t...
The main aim of the paper is to present a new numerical method to solve the weak formulation of the ...
A numerical approach is developed to deal with arbitrarily shaped structures. Two different methodol...
Several applications in many engineering fields need particular structural elements characterized by...
none3noA numerical solution is sought for many engineering applications since it is not always possi...
none2noEngineering applications in conventional numerical modeling are investigated by domain decomp...
The authors are presenting a novel formulation based on the Differential Quadrature (DQ) method whic...
This paper provides a new technique for solving the static analysis of arbitrarily shaped composite ...
It is well known that many applications in several fields of engineering cannot be solved analytical...
This paper provides a new technique for solving the static analysis of arbitrarily shaped composite ...
The problem of thin and thick plates has been historically solved considering simple geometries. How...
none4noDOI dell'intero volume: 10.15651/978-88-748-8963-1Recently it has been proven that differenti...
none3noThe aim of this work is to investigate and compare the accuracy and convergence behavior of t...
The main aim of the paper is to present a new numerical method to solve the weak formulation of the ...