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Impact of Microstructural Changes in Concrete on Coda Waves

Abstract

Monitoring the condition of concrete structures is a macrosocial task for safety and economic reasons that increasingly uses techniques from the field of non-destructive testing. A promising technique for structural health monitoring of heterogeneous materials such as concrete or reinforced concrete is coda wave interferometry, as it is sensitive to even weak changes in the material and can therefore be used as an early warning system for damage. The technique is based on comparing two ultrasonic wave forms to derive a change in velocity. The change is particularly well measurable and resolvable in heterogeneous media due to strong scattering in late arriving wave packages, the coda. The objective of the study was to investigate the relationships between transient impacts, such as temperature, relative humidity, and external stress changes, on the velocity change of coda waves propagating in concrete. Furthermore, long-term phenomena such as shrinkage, creep, and hydration were characterized using the relative velocity change. The investigations published in three articles showed that temperature and stress changes in the elastic range are linearly related to the velocity change of the coda. The interaction of temperature and humidity, on the other hand, led to a non-linear change. Furthermore, the results demonstrated that shrinkage, creep, and hydration can be described not only by conventional measurement techniques but also by means of coda wave interferometry.

Series DAfStb-Heft 657
Author Fabian Diewald
Publisher
ISBN 978-3-410-65952-5
Edition 1. edition
Edition 2025-04
Cover Paper covers
Format A4
Pages 120 Pages
Medium print
Original language English
Price from 88.00 €