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Simulation of Mixed Mode Fracture in Plain and Reinforced Concrete Using Standard and Enhanced Rankine Plasticity

J. Pamin

Within Project 3.2 'Reinforced Concrete' of the HCM grant ALERT 'Geomaterials' a number of experimental tests have been chosen as benchmarks for examination of computational models (M. di Prisco 1995). The research aims at the improvement of understanding of the dowel action of reinforcement in RC structures. The present work is focused on the investigation of shear resistance mechanisms in reinforced concrete and the assessment of the predictive capabilities of the employed models.

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Simulation of Mixed Mode Fracture in Plain and Reinforced Concrete Using Standard and Enhanced Rankine Plasticity

J. Pamin

Within Project 3.2 'Reinforced Concrete' of the HCM grant ALERT 'Geomaterials' a number of experimental tests have been chosen as benchmarks for examination of computational models (M. di Prisco 1995). The research aims at the improvement of understanding of the dowel action of reinforcement in RC structures. The present work is focused on the investigation of shear resistance mechanisms in reinforced concrete and the assessment of the predictive capabilities of the employed models.

Simulation of Mixed Mode Fracture in Plain and Reinforced Concrete Using Standard and Enhanced Rankine Plasticity

J. Pamin

Within Project 3.2 'Reinforced Concrete' of the HCM grant ALERT 'Geomaterials' a number of experimental tests have been chosen as benchmarks for examination of computational models (M. di Prisco 1995). The research aims at the improvement of understanding of the dowel action of reinforcement in RC structures. The present work is focused on the investigation of shear resistance mechanisms in reinforced concrete and the assessment of the predictive capabilities of the employed models.

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Title:

Simulation of Mixed Mode Fracture in Plain and Reinforced Concrete Using Standard and Enhanced Rankine Plasticity

Contributors:

J. Pamin (author)

Publication date:

1996

Size:

39 pages

Type of media:

Report

Type of material:

No indication

Language:

English

Keywords:

Construction Equipment, Materials, & Supplies , Construction Materials, Components, & Equipment , Ceramics, Refractories, & Glass , Concrete , Fracture properties , Microstructure , Reinforced concrete , Dowels , Plastic properties , Shear strength , Foreign technology

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