Tensile and shear bond strength between cement paste and aggregate subjected to high temperature

In the framework of studying the leakage rate of concrete containment of nuclear power plants during an accident, the mechanical characterization of interface between cement paste and limestone aggregate was performed with mechanical tests at the local scale, inside the laboratory of micromechanics...

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Bibliographic Details
Published in:Materials and structures 2017-12, Vol.50 (6), p.1-9, Article 234
Main Authors: El Bitouri, Y., Jamin, F., Pélissou, C., El Youssoufi, M. S.
Format: Article
Language:English
Subjects:
Bond strength
Bonding strength
Building construction
Building Materials
Cement
Cements
Civil Engineering
Electric power plants
Engineering
Engineering Sciences
Heating
Internal friction
Limestone
Machines
Manufacturing
Materials Science
Matériaux composites et construction
Mechanical properties
Mechanical tests
Micromechanics
Nuclear electric power generation
Nuclear power plants
Nuclear reactor containment
Original Article
Processes
Production methods
Shear
Solid Mechanics
Tensile strength
Theoretical and Applied Mechanics
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Summary:In the framework of studying the leakage rate of concrete containment of nuclear power plants during an accident, the mechanical characterization of interface between cement paste and limestone aggregate was performed with mechanical tests at the local scale, inside the laboratory of micromechanics and integrity of structures (MISt). The evolution of tensile and shear bond strength between cement paste and aggregate after heating was determined. It was revealed that the tensile bond strength was strongly affected by the temperature rise, with a decrease of about 71% at 60 °C. Moreover, the shear bond strength increased almost linearly with the increase of normal stress. According to the Coulomb criterion, the cohesion and the internal friction angle were determined. These parameters decreased after heating, which indicates occurrence of thermic damage between cement paste and limestone aggregate. Finally, it appears that the tensile bond strength is more affected by the thermal damage than the shear bond strength.
ISSN:1359-5997
1871-6873
DOI:10.1617/s11527-017-1105-8