Constitutive models aimed at predicting the mechanical response of lead-core bearing devices for passive seismic isolation are discussed in this paper. The study is focused on single-degree-of-freedom models which pro...Constitutive models aimed at predicting the mechanical response of lead-core bearing devices for passive seismic isolation are discussed in this paper. The study is focused on single-degree-of-freedom models which provide a relation between the shear displacement (shear strain) and the shear force (shear stress) in elastomeric and lad-core rubber bearings. Classical Bouc-Wen model along with a numerical procedure for identification of the model constants is described. Alternatively, a constitutive relation introducing a damage variable aimed at assessing the material degradation is also considered.展开更多
In structural elements strengthened with Fiber Reinforced Polymer(FRP),debonding failure modes should be taken into consideration.Under specific circumstances,they may provoke a global,premature failure of the structu...In structural elements strengthened with Fiber Reinforced Polymer(FRP),debonding failure modes should be taken into consideration.Under specific circumstances,they may provoke a global,premature failure of the structural element.In other cases,they should be accounted for in the modeling in order to obtain more accurate results.Despite the large amount of research work carried out in this field in the last few decades,debonding failure modes are still not fully understood.This contribution is focused on a numerical procedure designed to model the progressive loss of bond action between FRP and concrete.The two-stage procedure is integrated into incremental,finite element analysis.The proposed algorithm uses experimentally obtained slip-stress relationship.Predefined failure criteria are used to predict the local bond failure.In the reported case study,an experimental set-up widely employed to investigate debonding is modeled.Results obtained by finite element analysis are discussed.展开更多
文摘Constitutive models aimed at predicting the mechanical response of lead-core bearing devices for passive seismic isolation are discussed in this paper. The study is focused on single-degree-of-freedom models which provide a relation between the shear displacement (shear strain) and the shear force (shear stress) in elastomeric and lad-core rubber bearings. Classical Bouc-Wen model along with a numerical procedure for identification of the model constants is described. Alternatively, a constitutive relation introducing a damage variable aimed at assessing the material degradation is also considered.
文摘In structural elements strengthened with Fiber Reinforced Polymer(FRP),debonding failure modes should be taken into consideration.Under specific circumstances,they may provoke a global,premature failure of the structural element.In other cases,they should be accounted for in the modeling in order to obtain more accurate results.Despite the large amount of research work carried out in this field in the last few decades,debonding failure modes are still not fully understood.This contribution is focused on a numerical procedure designed to model the progressive loss of bond action between FRP and concrete.The two-stage procedure is integrated into incremental,finite element analysis.The proposed algorithm uses experimentally obtained slip-stress relationship.Predefined failure criteria are used to predict the local bond failure.In the reported case study,an experimental set-up widely employed to investigate debonding is modeled.Results obtained by finite element analysis are discussed.
