Add to ORKGFiber reinforced concrete is analyzed and modeled at two different levels of observation. On the one hand, a macroscopic formulation based on the non-linear microplane theory is presented. Following approaches recently proposed in Pietruszczak & Winnicki (2003) and Manzoli et al. (2008), the mixture theory is used to describe the coupled action between concrete and the fiber reinforcement. The parabolic Drucker- Prager maximum strength criterion is considered at the microplane level. Post-peak behavior is formulated in terms of the fracture energy release under mode I and/or II failure modes. On the other hand, a mesoscopic model of fiber reinforced concrete (FRC) is also presented which is based on three constituents: aggregate, mortar a...
This paper proposes a meso-mechanical formulation aimed at explicitly simulating the contribution of...
Abstract: Despite impressive advances, the existing constitutive and fracture models for fiber-reinf...
In this work, firstly a fracture-based interface constitutive theory, aimed at simulating the cracki...
Fiber reinforced concrete is analyzed and modeled at two different levels of observation. On the one...
Non-linear failure behavior of Fiber Reinforced Concrete (FRC) is analyzed and modeled by means of t...
In this work the capabilities of an interface model to predict failure behavior of steel fiber reinf...
Quasi-brittle materials like concrete or rocks, typically present localized failure modes due to cra...
In this work a thermodynamically consistent elasto-plastic microplane constitutive theory, aimed at ...
A fracture energy-based microplane constitutive theory for steel fiber reinforced concrete (SFRC) is...
A new formulation to model the mechanical behavior of high performance fiber reinforced cement comp...
A variational micro-mechanical model is proposed to reproduce the complex response of fiber-reinforc...
AbstractA new formulation to model the mechanical behavior of high performance fiber reinforced ceme...
In the present paper the nonlinear response of fiber reinforced concrete (FRC) material is investig...
This paper proposes a meso-mechanical formulation aimed at explicitly simulating the contribution of...
Abstract: Despite impressive advances, the existing constitutive and fracture models for fiber-reinf...
In this work, firstly a fracture-based interface constitutive theory, aimed at simulating the cracki...
Fiber reinforced concrete is analyzed and modeled at two different levels of observation. On the one...
Non-linear failure behavior of Fiber Reinforced Concrete (FRC) is analyzed and modeled by means of t...
In this work the capabilities of an interface model to predict failure behavior of steel fiber reinf...
Quasi-brittle materials like concrete or rocks, typically present localized failure modes due to cra...
In this work a thermodynamically consistent elasto-plastic microplane constitutive theory, aimed at ...
A fracture energy-based microplane constitutive theory for steel fiber reinforced concrete (SFRC) is...
A new formulation to model the mechanical behavior of high performance fiber reinforced cement comp...
A variational micro-mechanical model is proposed to reproduce the complex response of fiber-reinforc...
AbstractA new formulation to model the mechanical behavior of high performance fiber reinforced ceme...
In the present paper the nonlinear response of fiber reinforced concrete (FRC) material is investig...
This paper proposes a meso-mechanical formulation aimed at explicitly simulating the contribution of...
Abstract: Despite impressive advances, the existing constitutive and fracture models for fiber-reinf...
In this work, firstly a fracture-based interface constitutive theory, aimed at simulating the cracki...