Tensile Creep Behavior of Concrete Subject to Constant Restraint at Very Early Ages

AbstractTensile stress develops in concrete when shrinkage deformations and restraints (internal or external) exist. Utilization of appropriate creep or relaxation functions is crucial for assessing stress and the associated cracking potential in concrete, especially at early ages when chemical and...

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Bibliographic Details
Published in:Journal of materials in civil engineering 2013-09, Vol.25 (9), p.1277-1284
Main Authors: Wei, Ya, Hansen, Will
Format: Article
Language:English
Subjects:
Age
Applied sciences
Buildings. Public works
Concretes
Concretes. Mortars. Grouts
Constants
Constraints
Cracking (chemical engineering)
Exact sciences and technology
General (composition, classification, performance, standards, patents, etc.)
Grounds
Materials
Strength of materials (elasticity, plasticity, buckling, etc.)
Stresses
Structural analysis. Stresses
Technical Papers
Tensile creep
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Summary:AbstractTensile stress develops in concrete when shrinkage deformations and restraints (internal or external) exist. Utilization of appropriate creep or relaxation functions is crucial for assessing stress and the associated cracking potential in concrete, especially at early ages when chemical and physical properties change rapidly. The existing models, developed either from compressive creep tests or conventional tensile creep tests with constant loads applied at certain ages, were found to be unsuitable for such stress evaluation. This study was performed to investigate the restrained strain-stress development and tensile creep behavior of concrete subject to constant restraint starting at very early ages, which well represents field conditions of actual structures. Restrained stresses were measured using a specially designed frame. The concretes were cured and tested at two different temperatures (23°C versus 33°C) and ground granulated blast furnace slag contents (0% versus 30% of the total cementitious materials by mass). A modified tensile creep model is proposed to account for the high viscosity of concrete under constantly restrained conditions, allowing more accurate assessments of stress and cracking potential in structures such as slabs or pavements on the ground.
ISSN:0899-1561
1943-5533
DOI:10.1061/(ASCE)MT.1943-5533.0000671