Add to ORKGTwo mathematical models are developed within the theoretical framework of large strain elasticity for the determination of upper and lower bounds on the total strain energy of a finitely deformed hyperelastic body in unilateral contact with a rigid surface or with an elastic substrate. The model problems take the form of two continuous optimization problems with inequality constraints, the solutions of which are used to provide an enclosure on the uniform external load acting on the body’s surface away from the contact zone
A rigorous finite element numerical procedure is proposed for the computation of guaranteed lower an...
The paper deals with a static case of discretized contact problems for bodies made of materials obey...
A rigorous finite element numerical procedure is proposed for the computation of guaranteed lower an...
Two mathematical models are developed within the theoretical framework of large strain elasticity fo...
Two mathematical models are developed within the theoretical framework of large strain elasticity fo...
Two mathematical models are developed within the theoretical framework of large strain elasticity fo...
Two mathematical models are developed within the theoretical framework of large strain elasticity fo...
A finite element a posteriori method to compute rigorous inexpensive upper and lower bounds for engi...
A finite element a posteriori method to compute rigorous inexpensive upper and lower bounds for engi...
We present an implicit a posteriori finite element procedure to compute bounds for functional output...
We present an implicit a posteriori finite element procedure to compute bounds for functional output...
AbstractThe problem of maximization the global rigidity (measured by the compliance) of an elastic s...
The work [1] presents the formulation and numerical solution of the problem concerning the unilatera...
A rigorous finite element numerical procedure is proposed for the computation of guaranteed lower an...
A rigorous finite element numerical procedure is proposed for the computation of guaranteed lower an...
A rigorous finite element numerical procedure is proposed for the computation of guaranteed lower an...
The paper deals with a static case of discretized contact problems for bodies made of materials obey...
A rigorous finite element numerical procedure is proposed for the computation of guaranteed lower an...
Two mathematical models are developed within the theoretical framework of large strain elasticity fo...
Two mathematical models are developed within the theoretical framework of large strain elasticity fo...
Two mathematical models are developed within the theoretical framework of large strain elasticity fo...
Two mathematical models are developed within the theoretical framework of large strain elasticity fo...
A finite element a posteriori method to compute rigorous inexpensive upper and lower bounds for engi...
A finite element a posteriori method to compute rigorous inexpensive upper and lower bounds for engi...
We present an implicit a posteriori finite element procedure to compute bounds for functional output...
We present an implicit a posteriori finite element procedure to compute bounds for functional output...
AbstractThe problem of maximization the global rigidity (measured by the compliance) of an elastic s...
The work [1] presents the formulation and numerical solution of the problem concerning the unilatera...
A rigorous finite element numerical procedure is proposed for the computation of guaranteed lower an...
A rigorous finite element numerical procedure is proposed for the computation of guaranteed lower an...
A rigorous finite element numerical procedure is proposed for the computation of guaranteed lower an...
The paper deals with a static case of discretized contact problems for bodies made of materials obey...
A rigorous finite element numerical procedure is proposed for the computation of guaranteed lower an...