Add to ORKGThis paper concerns the dynamic behaviour of rigid, perfectly plastic simply supported beams with finite deflections by considering both bending moments and axial forces. In the case of rectangular pressure pulse loading, approximate rigid-plastic theoretical solutions are obtained for both medium load and high load; to this end a parabolic law between bending moment and axial force as yield condition is approximated by a circumscribing or an inscribing rectangle. The concept of Saturation Impulse is put forward for the dynamic response of rigid, perfectly plastic structures with finite deflections subjected to rectangular pressure pulse. The value of dimensionless saturation impulse for both simply supported and fully clamped beams are ...
By assuming a kinematically admissible, time-dependent velocity field and considering the global equ...
This article examines the dynamic plastic response of an impulsively loaded ideal fiber-reinforced (...
A phenomenological model is produced to represent propagation of a strong shock where particle veloc...
This paper concerns the dynamic behaviour of rigid, perfectly plastic simply supported beams with fi...
The concept of `'Saturation Impulse'' for rigid, perfectly plastic structures with finite-deflection...
The concept of ''Saturation Impulse'' for rigid, perfectly plastic structures wi...
An analytical procedure, which retains the influence of finite deflections, is developed herein for...
The deformation response of symmetrically supported, axially restrained beams subjected to uniformly...
Localised blast loads give rise to high gradients of overpressure detrimental to structural elements...
This paper presents a theoretical analysis for the dynamic response of a rigid-perfectly plastic sim...
This paper presents a theoretical analysis for the dynamic response of a rigid-perfectly plastic sim...
This paper investigates the phenomenon of saturated impulse in elastic-plastic plates whilst a fully...
This paper presents the theoretical solution to the response of a square plate undergoing plastic de...
Yu and Stronge (1990) employed a membrane factor to represent the large deflection effect in the dyn...
By taking into account plastic dissipation by the axial (membrane) force induced by large deflection...
By assuming a kinematically admissible, time-dependent velocity field and considering the global equ...
This article examines the dynamic plastic response of an impulsively loaded ideal fiber-reinforced (...
A phenomenological model is produced to represent propagation of a strong shock where particle veloc...
This paper concerns the dynamic behaviour of rigid, perfectly plastic simply supported beams with fi...
The concept of `'Saturation Impulse'' for rigid, perfectly plastic structures with finite-deflection...
The concept of ''Saturation Impulse'' for rigid, perfectly plastic structures wi...
An analytical procedure, which retains the influence of finite deflections, is developed herein for...
The deformation response of symmetrically supported, axially restrained beams subjected to uniformly...
Localised blast loads give rise to high gradients of overpressure detrimental to structural elements...
This paper presents a theoretical analysis for the dynamic response of a rigid-perfectly plastic sim...
This paper presents a theoretical analysis for the dynamic response of a rigid-perfectly plastic sim...
This paper investigates the phenomenon of saturated impulse in elastic-plastic plates whilst a fully...
This paper presents the theoretical solution to the response of a square plate undergoing plastic de...
Yu and Stronge (1990) employed a membrane factor to represent the large deflection effect in the dyn...
By taking into account plastic dissipation by the axial (membrane) force induced by large deflection...
By assuming a kinematically admissible, time-dependent velocity field and considering the global equ...
This article examines the dynamic plastic response of an impulsively loaded ideal fiber-reinforced (...
A phenomenological model is produced to represent propagation of a strong shock where particle veloc...