Non-destructive test system to monitor hydration and strength development of low CO2 concrete
Journal article, 2023

Application of supplementary cementitious materials for production of low CO2 concrete affects the reaction kinetics, which alters the setting time and strength development. The different early-age behavior is of concern for quality control of concrete. Non-destructive test is very useful for monitoring the quality of low CO2 binder systems. This paper presents a new technique to monitor the electrical conductivity and temperature at different depths of hydrating concrete. Indices from monitoring system (conductivity, maturity and formation factor) are compared with data from widely-used methods (ultrasonic pulse velocity, penetration resistance and isothermal calorimetry). Results show that indices from the system can replicate the hydration evolution, setting time and compressive strength of low CO2 concrete. Electrical conductivity of concrete is very sensitive to mineral reactions and it reflects the hydration kinetic consistent with evolution of heat release. Linear correlations are found for penetration resistance in relation to ultrasonic pulse velocity, formation factor and maturity, respectively. The effects of binder type and water-to-binder ratio on hardening are strongly dependent on temperature. The proposed approach enables to include all these factors in characterizing the hardening process of concrete onsite. It is shown that formation factor performs better than ultrasonic pulse velocity on indicating the setting process. Formation factor is also a good parameter for quantitative description of compressive strength development, which is independent of the binder types, mixture proportions and curing ages.

SCMsNon-destructive testFormation factorSettingCompressive strength

Author

Liming Huang

Chalmers, Architecture and Civil Engineering, Building Technology

Luping Tang

Chalmers, Architecture and Civil Engineering, Building Technology

Ingemar Löfgren

Chalmers, Architecture and Civil Engineering, Structural Engineering

Nilla Olsson

Arezou Baba Ahmadi

Chalmers, Architecture and Civil Engineering, Building Technology

Oskar Esping

Thomas Concrete Group

Yongqiang Li

Shenzhen University

Zhenghong Yang

Tongji University

Construction and Building Materials

0950-0618 (ISSN)

Vol. 408 133774

Water in "Green" Cementitious Materials

Thomas Concrete Group, 2019-01-01 -- 2022-04-30.

Formas (2018-01430), 2019-01-02 -- 2022-04-30.

Development Fund of the Swedish Construction Industry (SBUF), 2019-01-01 -- 2022-04-30.

Cementa (173015), 2020-11-02 -- 2022-04-30.

Subject Categories

Civil Engineering

Infrastructure Engineering

Other Materials Engineering

Areas of Advance

Materials Science

DOI

10.1016/j.conbuildmat.2023.133774

More information

Latest update

11/6/2023