Mechanical characteristics and recoverability of low-quality crushed coarse aggregate by surface modification and microwave heating

Heesop Choi; Masumi Inoue; Sukmin Kwon; Myungkwan Lim; Hyeonggil Choi; Ryoma Kitagaki; Takafumi Noguchi

doi:10.18702/acf.2016.06.2.1.24

Vol. 2 No. 1 (2016), Articles

Vol. 2 No. 1 (2016)

Mechanical characteristics and recoverability of low-quality crushed coarse aggregate by surface modification and microwave heating

Articles

https://doi.org/10.18702/acf.2016.06.2.1.24

Published 2016-07-05

Heesop Choi⁺⁻
Masumi Inoue⁺⁻
Sukmin Kwon⁺⁻
Myungkwan Lim⁺⁻
Hyeonggil Choi⁺⁻
Ryoma Kitagaki⁺⁻
Takafumi Noguchi⁺⁻

Heesop Choi

Department of Civil and Environmental Engineering, Kitami Institute of Technology, Japan.

Masumi Inoue

Department of Civil and Environmental Engineering, Kitami Institute of Technology, Japan.

Sukmin Kwon

Assistant Research Fellow of Public Housing Division, Korea Land & Housing Institute, South Korea.

Myungkwan Lim

Department of Architectural Engineering, Songwon University, Republic of Korea.

Hyeonggil Choi

Faculty of Environmental Technology, Muroran Institute of Technology, Japan.

Ryoma Kitagaki

Department of Architectural Engineering, The University of Tokyo, Japan.

Takafumi Noguchi

Department of Architectural Engineering, The University of Tokyo, Japan.

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Keywords

Recycling
Low-quality crushed coarse aggregate
Surface modification
Interfacial transition zone
Microwave
Recovery
Durability

How to Cite

Choi, H., Inoue, M., Kwon, S., Lim, M., Choi, H., Kitagaki, R., & Noguchi, T. (2016). Mechanical characteristics and recoverability of low-quality crushed coarse aggregate by surface modification and microwave heating. Journal of Asian Concrete Federation, 2(1), 24–30. https://doi.org/10.18702/acf.2016.06.2.1.24

Abstract

This paper presents a quantitative review of the mechanical performance, as well as the separation from the matrix and the recovery performance of surface-modified coarse aggregate manufactured from lowquality crushed coarse aggregate (LCCA) coated in an inorganic powder. The results of the experiments showed that reinforcing the interfacial transition zone, a vulnerable area in concrete, by coating the surface of the LCCA with a surface modification material, can help reduce micro-cracking and improve the structural integrity of the aggregate. Therefore, the use of coated LCCAs resulted in concrete of improved strength and durability. Further, it was demonstrated that the dielectric material (Fe2O3) present in the inorganic coating layer (surface modification coarse paste) could be heated effectively by microwaves. The results can be explained by an increase in void volume, along with a weakening of the hydrated cement paste, promoting the efficient recovery rate of surface-modified LCCAs.

https://doi.org/10.18702/acf.2016.06.2.1.24

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