Behaviour of concrete in compression and shear under varying strain rates: from rapid to long-term actions

In the present research, the uniaxial compression behaviour of concrete under different strain rates is investigated. The investigation emphasises the influence of the strain rate on the development of inelastic deformations due to nonlinear creep for high levels of stress (larger than 70% of uniaxial strength). A clear and consistent decrease of the concrete strength for lower strain rates is observed. Acoustic emission measurements clearly confirm the relationship of this phenomenon to the development of concrete micro-cracking with time. An accurate analytical prediction of the strength and remaining deformation capacity has been obtained by applying the affinity hypothesis and the nonlinear creep coefficient previously developed by the authors for constant loading cases.

Behaviour of concrete in compression and shear under varying strain rates: from rapid to long-term actions

Graph Chatbot

Influence of model uncertainty and long term deformations in action effects calculation in reinforced concrete structures

Experimental investigation of dowel action in reinforcing bars using refined measurements

Experimental and analytical investigation of shear-reinforced concrete and dowel action

Influence of model uncertainty and long term deformations in action effects calculation in reinforced concrete structures

Experimental investigation of dowel action in reinforcing bars using refined measurements

Experimental and analytical investigation of shear-reinforced concrete and dowel action