Journal ArticleDOI
Stress prediction in very early-age concrete subject to restraint under varying temperature histories
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TLDR
In this article, a modified microprestress-solidification (MPS) theory-based creep model was used to predict the very early-age stress development of fully restrained concrete specimens under variable temperature history since casting.Abstract:
Assessing the stress development in concrete requires an appropriate tensile creep model which is capable of incorporating the effect of the field environment conditions. This study quantifies the effect of temperature variation on the very early-age stress developments in restrained concrete by adopting a modified microprestress-solidification (MPS) theory-based creep model. The MPS creep model is first calibrated and verified based on the measured direct tensile creep data under normal and high temperature histories, it is then used to predict the very early-age stress development of the fully restrained concrete specimens under variable temperature history since casting. The predicted results are in good agreement with the experimental results. The tensile stress in restrained specimens can be relaxed by 80 %–87% within the first three days since casting. The predicted stress exhibits an obvious deviation from the measured one if temperature effect is not considered. Therefore, it is of importance to consider the temperature effect on concrete creep when the temperature variation in concrete is significant, and MPS creep model is valid for tensile stress prediction in concrete at very early ages.read more
Citations
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References
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Creep and shrinkage prediction model for analysis and design of concrete structures - model B3
TL;DR: In this paper, a model for the characterization of concrete creep and shrinkage in the design of concrete structures is recommended, which is simpler, agrees better with the experimental data and is justified better theoretically than the previous models.
Journal ArticleDOI
Microprestress-Solidification Theory for Concrete Creep. I: Aging and Drying Effects
TL;DR: In this article, a new physical theory and constitutive model for the effects of long-term aging and drying on concrete creep is proposed, in which the viscosity of the flow term of the compliance function is a function of a tensile microprestress carried by the bonds and bridges crossing the micropores (gel pores) in the hardened cement gel.
Journal ArticleDOI
Solidification theory for concrete creep. I: formulation
TL;DR: In this article, a general constitutive law for creep is presented, in which the aging due to continuing hydration of cement is taken into account in a simple manner, and better justified than in existing theories.
Journal ArticleDOI
Prediction of concrete creep and shrinkage: past, present and future
TL;DR: In this article, the authors summarized various aspects of the prediction of concrete creep and shrinkage to be discussed in the conference lecture, including theories of physical mechanism, prediction models, constitutive equations, computational approaches, probabilistic aspects, and research directions.
Journal ArticleDOI
Solidification Theory for Concrete Creep. II: Verification and Application
TL;DR: In this article, the authors verified and calibrated the theory that was formulated in the preceding paper by comparison with important test data from the literature pertaining to constant as well as variable stress at no (or negligible) simultaneous drying.
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