Real-Time Strength Monitoring for Concrete Structures Using EMI Technique Incorporating with Fuzzy Logic

Sang-Ki Choi,Innjoon Park,Najeebullah Tareen,Junkyeong Kim,Seunghee Park

doi:10.3390/app8010075

Sang-Ki Choi, Innjoon Park + Show 3 more

Open Access

https://doi.org/10.3390/app8010075

Copy DOI

Journal: Applied sciences	Publication Date: Jan 8, 2018
Citations: 17	License type: CC BY 4.0

Affiliation: Sungkyunkwan University, Hanseo University

Abstract

This study estimates the strength of a special mixture of high-strength concrete (HSC) with admixtures for use in a nuclear power plant (NPP). Nuclear power plant structures need a HSC with some additional qualities to operate the safe options. For this purpose, the experimented concrete was specially designed to fulfill the required qualities of NPP. For gaining these desirable qualities, it needs to monitor the concrete strength development process. Here, the PZT materials were used as sensors to acquire data by measuring the electromechanical impedance (EMI), and then cross correlation (CC) was calculated to look at changes according to strength development. Data were measured for 28 days, and over this period concrete can gain up to 96% of its design strength. This technique is based on a single sensor. After casting concrete, the PZT material starts vibrating as an actuator to produce vibrations. At the same time, it also works as a sensor to measure the dynamic response of the structure to the vibrations. With strength development, the resonant frequencies of the EMI start changing. To estimate the strength development, a fuzzy logic tool was used to analyze the parameters, allowing for us to estimate and predict the concrete strength. For cross-checking, the estimated strength was compared with the actual strength of concrete; this was determined by examining cuboid cores taken from specimens during experiments at the 1st, 3rd, 7th, 14th, and 28th days. According to the results, this approach of strength estimation and monitoring the strength development is useful for forecasting the stability of structures.

Highlights

Due to the rapid development of more demanding concrete infrastructures worldwide, these structures need to be upgraded and enlarged in terms of their size, design, shape, stability, and strength
Experiments were performed to investigate different aspects of concrete, including its heterogeneous mixture, to determine how these features are related to concrete strength development
For the nuclear power plant (NPP) concrete, the admixtures and high strength makes it more important to observe and monitor all of the desired qualities for which this high-strength concrete (HSC) was designed for this purpose of monitoring, NDT is typically used to determine the strength, stability, and health of a structure

Summary

Introduction

Due to the rapid development of more demanding concrete infrastructures worldwide, these structures need to be upgraded and enlarged in terms of their size, design, shape, stability, and strength. To meet these new design requirements, the strength of concrete is important; these structures rely on concrete as a construction agent due to its good compressive strength, durability, and cost efficiency [1,2]. When casting HSC, it is necessary to monitor the strength development at an early age and determine whether concrete gains the design strength. To estimate the early-age compressive strength of concrete, different types of tests can be used. Due to the accuracy of its result, the strength estimation of concrete using EMI has been widely studied [13,14,15,16,17,18,19]

Methods

Results

Discussion

Conclusion