PhD Thesis Defence Presentations - Christos Tapeinos

Presentation Title (Τίτλος Παρουσίασης): Non-destructive measurement of bending vibration frequencies for crack detection in metallic, plastic, and concrete beams using magnetoelastic sensors in microwire and ribbon form
Presentation Type (Τύπος Παρουσίασης): PhD Thesis Defence Presentations
Speakers Full Name (Ονοματεπώνυμο): Christos Tapeinos
Speakers Affiliation (Προέλευση Ομιλητή): University of Patras, Department of Chemical Engineering
Seminar Room (Αίθουσα): Seminar Hall
Event Date: Wed, Dec 10 2025, Time: 11:00 - 13:00
Abstract (Περίληψη)

Abstract

In this work, magnetoelastic sensors (in ribbon and microwire form) were used to detect cracks in concrete beams, as well as to measure the bending vibration frequencies in concrete and metal beams. The dissertation is divided into three parts.

In the first part, an attempt was made to measure the bending vibration frequencies of an aluminum cantilever beam indirectly by using smaller plastic beams printed with a 3D printer. The metal beam was fixed in place using a press and connected to a mechanical oscillator, which in turn was connected to a frequency generator. The plastic beam was attached with tape to the free end of the metal beam. The sensor was placed both on the outer surface of the plastic beam and inside it at various depths. A detection coil and a multimeter were added to the setup. Thus, when the oscillator operated, it excited (forced) the beam at specific frequencies, and when resonance occurred, the sensor generated an electromotive force (EMF), which was detected by the multimeter. In this way, all the natural frequencies of the metal beam were recorded. It should be noted that the measured frequencies differed from those of a simple metal beam due to the addition of the plastic beam. Finally, the same experiment was repeated several times with the sensor placed externally and at various depths inside the plastic beam, in order to determine whether depth affects detection.

In the second part, an attempt was made to detect cracks in concrete beams with free ends using a ribbon-type sensor by identifying the natural vibration frequencies of the beam. The beams, with dimensions 4×4×16 cm³, were made in special molds from commercial cement according to EN 76 196-1 standards in a specialized laboratory. The sensors were attached to the surface of the beams using special double-sided adhesive tape. For supporting the beam, a metal and a wooden base were used for comparison, and signal detection was achieved using a coil. The coil was connected to the microphone port of a computer, and the spectrum analysis software provided the vibration frequencies of the concrete beams after a Fourier transform. By comparing the frequencies of the beam with and without a crack, the crack was detected from differences in the signal.

In the third part, the behavior of the two sensors—ribbon and wire—was studied comparatively. The hysteresis loops and the response of the sensors to the application of an external alternating magnetic field of 1–300 kHz were measured. Subsequently, again in a comparative manner, the bending vibration frequencies and the crack in concrete beams were detected using a setup similar to that of the second part. Finally, the frequencies of a concrete beam were detected with the sensors embedded inside the beam.

 

Speakers Short CV (Σύντομο Βιογραφικό Ομιλητή)

Name:

Christos Ι. Tapeinos

Phone No. 

+30 6948370051

Address:

Κaratheodori 1, University Campus Patras, GR 265 04

E-mail:

tapeinoschristos@gmail.com

 

 

 

Education

2020 – 2025      PhD in Chemical Engineering, Section: Materials Science and Technology, Chemical Engineering Department, University of Patras, Greece

2017 – 2019      MSc in Material Science, (7,46/10), Materials Science Department, University of Patras, Greece

2012 – 2016      BSc in Material Science, (8,74/10), Materials Science Department, University of Patras, Greece 

 

 

 

Subject of PhD

 

Contactless and vibration-based damage detection in rectangular cement beams using magnetoelastic ribbon and microwire sensors. Non Destructive Testing, Structural Health Monitoring, Characterization of ribbon and microwire sensors. Preparation of cement based beams and beams with attached sensors at the surface and inside. Crack detection. Magnetostriction.

 

 

Foreign Languages: ­ English: Advanced (level C1)

                                   

 

 

 

Honors and Awards

 

Money Award about 1000 euros from University of Patras, 1st Rank

 

 

 

Publication Record (peer-reviewed)

 

  1. Dimitris Kouzoudis  , Georgios Samourgkanidis, Christos I. Tapeinos 

Contactless Detection of Natural Bending Frequencies using Embedded Metallic-Glass Ribbons inside Plastic Beams made of 3-D Printing. doi:10.21926/rpm.2102010

  1. C. I. Tapeinos, M. D. Kamitsou, K. G. Dassios, D. Kouzoudis, A. Christogerou, G. Samourgkanidis

Contactless and vibration-based damage detection in rectangular cement beams using magnetoelastic ribbon sensors https://doi.org/10.3390/s23125453

 

  1. Christos I. Tapeinos, Dimitris Kouzoudis , Kostantis Varvatsoulis, Georgios Samourgkanidis and Manuel Vazquez. “Microwire versus micro-ribbon magnetoelastic sensors for vibration-based structural health monitoring of rectangular concrete beams.” https://doi.org/10.3390/s25123590

 

 

 

 

Presentations in Conferences

 

1.“International Virtual Conference on Material Science & Engineering”, November 18-19, 2023, “Contactless and vibration-based damage detection in rectangular cement beams using magnetoelastic ribbon sensors”, C. I. Tapeinos

2. 13th Panhellenic Chemical Engineering Conference, June 2-4, 2022, “Contactless Detection of Natural Bending Frequencies using Embedded Metallic-Glass Ribbons inside Plastic Beams made of 3-D Printing”, D. Kouzoudis, C. I. Tapeinos (attendance)