Time Domain Reflectometry (TDR) technique – A solution to monitor moisture content in construction materials

Teresa Stingl Freitas,Staf Roels,Vasco Peixoto De Freitas,Andrea Cataldo,Ana Sofia Guimarães,J Kurnitski,T Kalamees

doi:10.1051/e3sconf/202017217001

Teresa Stingl Freitas, Staf Roels + Show 5 more

Open Access

https://doi.org/10.1051/e3sconf/202017217001

Copy DOI

Abstract

Measuring moisture content in building materials is crucial for the correct diagnosis of buildings’ pathologies and for the efficiency evaluation of the treatment solution applied. There are several different techniques available to measure the moisture content in construction materials. However, perform long-term minor-destructive measurements is still a great challenge. The TDR – Time Domain Reflectometry – technique is commonly used for moisture content measurements in soils, but is considered a relatively new method with regard to its application in construction materials. In the present state of research, the current use of the TDR technique for monitoring moisture content in all types of consolidated porous building materials is not possible yet. Indeed, the empirical conversion functions proposed for soils are mostly not suitable for building materials. Furthermore, to successfully use the TDR technique, a good contact between the TDR probe and the material under study is required, which may be difficult to achieve in hard materials. In this paper, the TDR technique was implemented in two limestone walls constructed in the lab to test experimentally the efficiency of a wall-base ventilation channel to speed up drying after a flood. Each wall was equipped with four two-rod TDR probes for continuous monitoring the moisture content in both situations: with and without the ventilation channel. All the equipment used, procedures followed during the drilling until the probes’ final installation, as well as the individual calibration required for each probe are explained in detail. Instead of using unsuitable functions proposed for soils, the evaluation of the moisture content from the apparent relative dielectric permittivity measured was established using as reference method the gravimetric method. The results obtained suggest that the TDR technique is suitable for moisture content monitoring in consolidated porous building materials.

Highlights

The presence of high moisture content in building structures can lead to serious damage and needs to be avoided
The final goal is to use the continuous moisture content measurements provided by the Time Domain Reflectometry (TDR) technique to experimentally test the efficiency of a wall-base ventilation channel to speed up drying after a flood
The results revealed that the TDR technique is suitable to detect moisture content variations in the limestone

Summary

Introduction

The presence of high moisture content in building structures can lead to serious damage and needs to be avoided. Most of the current methods require material sampling, and as a consequence successive measurements cannot be repeated in the same point, not to mention that the operation of sampling can change the real moisture content of the element under study. Another very common alternative, are the methods based on the measurement of surface moisture content. These non-destructive methods only give a partial information of the moisture content in the study element, taking into account that the water content near the surfaces are strongly influenced by the evaporation conditions [1,2]. One popular example is the use of relative humidity sensors, they are not very suitable when it is intended to monitor high moisture content values

Objectives

Results

Conclusion