Calibration of Concrete Damaged Plasticity Model parameters for shear walls

Silva, Leonardo Martins e; Christofóro, André Luis; Carvalho, Roberto Chust

doi:10.1590/s1517-707620210001.1244

Cited by 9 publications

(1 citation statement)

References 32 publications

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“…3 Dilation angle and eccentricity from the meridian plane [3] Fig. 4 Failure surface by Kupfer and Gerstle [10] substance [4,25]. Fig.…”

Section: The Viscosity Parameter (μ)mentioning

confidence: 99%

Impact of Failure-surface Parameters of Concrete Damage Plasticity Model on the Behavior of Reinforced Ultra-high Performance Concrete Beams

Mahdi

2023

Period. Polytech. Civil Eng.

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The failure surface of elements can numerically represent by a concrete damage plasticity (CDP) model in Abaqus software which depends on five parameters. The parameters are eccentricity, shape, biaxial to uniaxial compressive strength ratio, dilation angle, and viscosity. This paper studies the effect of changing the values of the failure surface parameters on the bearing capacity, deflection, and overall structural behavior of ultra-high performance concrete (UHPC) beams. The parameters' changes include reasonable values higher or lower than the values adopted by Abaqus. An experimentally performed reinforced UHPC beam is simulated by Abaqus, and the five parameters are calibrated to coincide with the practical results. Then, one of the parameters is changed while others remain constant for each alteration to study its effect on the UHPC beam behavior. The numerical analysis results show that all five parameters do not affect the loading capacity and the corresponding deflection at the first cracking state. At peak state, the eccentricity does not affect the load and deflection. The influence of shape and the biaxial to uniaxial compressive strength ratio are confined to the deflection at peak load only without affecting the bearing capacity. The dilation angle effect appears when it is greater than 30 degrees to 56 degrees, while when it is less than 30, it does not affect the load and deflection. Rising the dilation angle and viscosity value promotes the peak load and the deflection.

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“…3 Dilation angle and eccentricity from the meridian plane [3] Fig. 4 Failure surface by Kupfer and Gerstle [10] substance [4,25]. Fig.…”

Section: The Viscosity Parameter (μ)mentioning

confidence: 99%

Impact of Failure-surface Parameters of Concrete Damage Plasticity Model on the Behavior of Reinforced Ultra-high Performance Concrete Beams

Mahdi

2023

Period. Polytech. Civil Eng.

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Simulation of cBN Grain Wear During Single Grain Engagement Considering Cleavage Planes

Bredthauer

Barth

Mattfeld

et al. 2023

Lecture Notes in Production Engineering

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A large part of the energy introduced during grinding is converted into heat. As not all the heat can be dissipated by the cooling lubricant, thermally induced displacements in machine components occur. These displacements have a negative influence on the component quality. Since the grinding wheel topography changes during the grinding process due to wear, the wear mechanisms of grain splintering, grain breakage as well as abrasion were identified and quantified. In addition, their effect on heat generation was investigated. To predict the wear mechanisms, a Finite Element (FE) simulation model was developed that determines the grain shape change considering the cleavage planes in the grain. Three-dimensional real cBN grain geometries were used for the simulation of a single grain engagement in the workpiece of the 100Cr6 steel. In the presented model, the orientation of the cleavage planes is varied and their influence on the wear mechanisms as well as the resulting forces is investigated. In addition, empirical tests were conducted in order to adjust the model. The simulation showed that a cleavage plane variation resulted in stronger crack propagation when the cleavage plane was oriented away from the workpiece and when the distance of the cleavage plane from the point of application of the load was smaller.

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Numerical and Experimental Investigation on Cyclic Behavior of Masonry Infill Walls Retrofitted with CFRP

Roudane,

Adanur,

Altunişik

2024

Int J Civ Eng

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Calibration of Concrete Damaged Plasticity Model parameters for shear walls

Cited by 9 publications

References 32 publications

Impact of Failure-surface Parameters of Concrete Damage Plasticity Model on the Behavior of Reinforced Ultra-high Performance Concrete Beams

Impact of Failure-surface Parameters of Concrete Damage Plasticity Model on the Behavior of Reinforced Ultra-high Performance Concrete Beams

Simulation of cBN Grain Wear During Single Grain Engagement Considering Cleavage Planes

Numerical and Experimental Investigation on Cyclic Behavior of Masonry Infill Walls Retrofitted with CFRP

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