Yōichi Mimura scite author profile

Yōichi Mimura

5Publications

41Citation Statements Received

28Citation Statements Given

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Affiliations

National Institute of Technology, Kagoshima College, National Institute of Technology, Kure College, Hiroshima University

Publications

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A Prediction Method of Tensile Young's Modulus of Concrete at Early Age

Yoshitake

Rajabipour

Mimura

et al. 2012

Advances in Civil Engineering

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Knowledge of the tensile Young's modulus of concrete at early ages is important for estimating the risk of cracking due to restrained shrinkage and thermal contraction. However, most often, the tensile modulus is considered equal to the compressive modulus and is estimated empirically based on the measurements of compressive strength. To evaluate the validity of this approach, the tensile Young's moduli of 6 concrete and mortar mixtures are measured using a direct tension test. The results show that the tensile moduli are approximately 1.0-1.3-times larger than the compressive moduli within the material's first week of age. To enable a direct estimation of the tensile modulus of concrete, a simple three-phase composite model is developed based on random distributions of coarse aggregate, mortar, and air void phases. The model predictions show good agreement with experimental measurements of tensile modulus at early age.

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Velocity-temperature correlation in premixed flame

Yanagi

Mimura

1981

Symposium (International) on Combustion

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Development of a New Composite Slab System Using a Carbon Fiber–Blended Cementitious Adhesive

Yoshitake

Ogawa²,

Kim

et al. 2012

J. Struct. Eng.

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Uniaxial Tension Test of Slender Reinforced Early Age Concrete Members

2011

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The present study aims to obtain the tensile properties of early age concrete based on a uniaxial tension test employing RC slender members. First, the paper shows that concrete strain is equal to the strain of rebar at the mid-span of the RC member. The tensile Young’s modulus and the strain capacity of early age concrete are estimated using strain measurements. The experiment indicated that the tensile Young’s modulus at an early age is higher than the compressive modulus. This observation was similar to one found in a previous investigation which used a direct tension test of early age concrete. Moreover, the paper describes how an empirical equation for mature concrete can be applied to the relation between uniaxial tensile strength and splitting tensile strength even in early age concrete. Based on a uniaxial tension test, the paper proposes an empirical equation for the relationship between standard bond stresses and relative slip.

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Uniaxial tensile strength and tensile Young’s modulus of fly-ash concrete at early age

Yoshitake

Zhang

Mimura

et al. 2013

Construction and Building Materials

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Yōichi Mimura

A Prediction Method of Tensile Young's Modulus of Concrete at Early Age

Velocity-temperature correlation in premixed flame

Development of a New Composite Slab System Using a Carbon Fiber–Blended Cementitious Adhesive

Uniaxial Tension Test of Slender Reinforced Early Age Concrete Members

Uniaxial tensile strength and tensile Young’s modulus of fly-ash concrete at early age

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