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Relationship between tensile Young’s modulus and strength of fly ash high strength concrete at early age
Highlights Mechanical properties of fly ash high strength concrete at early age were investigated. A model between uniaxial and splitting tensile strength at early age was proposed. A model between tensile and compressive Young’s modulus at early age was proposed. A model between tensile Young’s modulus and uniaxial tensile strength was proposed.
Abstract This paper presents an experimental investigation on the tensile properties of hardening fly ash HSC at different ages and quantifies the uniaxial tensile strength and tensile Young’s modulus of fly ash HSC. Test results showed that: (1) the axial compressive strength of hardening fly ash HSC at early age was lower than cubic compressive strength at the identical age; (2) the uniaxial tensile strength of hardening fly ash HSC at early age was lower than splitting tensile strength at the identical age; (3) the tensile Young’s modulus of the hardening fly ash HSC at early age was approximately 1.06–2.02times of the compressive Young’s modulus at the identical age; (4) the tensile Young’s modulus of hardening fly ash HSC at early age increased with the increase of uniaxial tensile strength. The prediction models showed good accuracy with the experimental results.
Relationship between tensile Young’s modulus and strength of fly ash high strength concrete at early age
Highlights Mechanical properties of fly ash high strength concrete at early age were investigated. A model between uniaxial and splitting tensile strength at early age was proposed. A model between tensile and compressive Young’s modulus at early age was proposed. A model between tensile Young’s modulus and uniaxial tensile strength was proposed.
Abstract This paper presents an experimental investigation on the tensile properties of hardening fly ash HSC at different ages and quantifies the uniaxial tensile strength and tensile Young’s modulus of fly ash HSC. Test results showed that: (1) the axial compressive strength of hardening fly ash HSC at early age was lower than cubic compressive strength at the identical age; (2) the uniaxial tensile strength of hardening fly ash HSC at early age was lower than splitting tensile strength at the identical age; (3) the tensile Young’s modulus of the hardening fly ash HSC at early age was approximately 1.06–2.02times of the compressive Young’s modulus at the identical age; (4) the tensile Young’s modulus of hardening fly ash HSC at early age increased with the increase of uniaxial tensile strength. The prediction models showed good accuracy with the experimental results.
Relationship between tensile Young’s modulus and strength of fly ash high strength concrete at early age
Shen, Dejian (author) / Shi, Xiang (author) / Zhu, Shuaishuai (author) / Duan, Xiaofang (author) / Zhang, Jinyang (author)
Construction and Building Materials ; 123 ; 317-326
2016-06-29
10 pages
Article (Journal)
Electronic Resource
English
| British Library Online Contents | 2016
| British Library Online Contents | 2016
| British Library Online Contents | 2016
Uniaxial tensile strength and tensile Young’s modulus of fly-ash concrete at early age
| Online Contents | 2013