Back
Benefits
Members
Sponsors and Partner
Products
Test methods
Product certification
Inspection
Damage analysis
Conferences
Courses
Degrees
Online
In-house-training
SKZ Whitepaper
Material
Process
Metrology
Circular Economy
Digitalisation
Enabler projects
Quality policy
Certification procedure
Downloads
Our Mission
Locations
Career
News
Back

Henriette Quitter receives SKZ Young Talent Award

Henriette Quitter has received the SKZ Plastics Center's Young Talent Award for her outstanding master's thesis. The jury of the SKZ Young Talent Award, consisting of the SKZ Advisory Board, the sponsor OPmobility and representatives of the SKZ, recognized Henriette Quitter's work entitled "Development of multi-pulse thermography for areal layer thickness measurement" as groundbreaking for the industry. The prize is awarded annually and is endowed with 2000 euros.

July 3, 2024
SKZ-Nachwuchspreis 2024

At the award ceremony for the SKZ Young Talent Award as part of the Network Day: SKZ CEO Prof. Dr.-Ing. Martin Bastian and Andreas Rößler, Customer Engineering Department Manager at OPmobility, present Henriette Quitter with a certificate and cheque. (Photo: Luca Hoffmannbeck, SKZ)

Pioneering master's thesis on multi-pulse thermography in industry convinced the jury

Henriette Quitter's work has led to remarkable findings that demonstrate the potential and challenges of multi-pulse thermography as a non-destructive testing system for the two-dimensional visualization of coating thicknesses, particularly of paints. The aim was to develop an evaluation algorithm that enables precise conversion of the raw signal from multi-pulse thermography into coating thicknesses. By investigating various industry-relevant samples and excitation techniques, she was not only able to realize an areal coating thickness measurement, but also gain valuable insights into possible applications.

Already employed at SKZ for several years
Henriette Quitter has been working at the SKZ for several years, currently as a student assistant. Following her project work at the Würzburg institute, the 27-year-old completed her Master's thesis under the supervision of SKZ CEO Prof. Dr.-Ing. Martin Bastian - her supervisor was Daniel Hoffmann, Senior Scientist in the Non-Destructive Testing Group. Henriette Quitter worked in the field of thermography the entire time. "Multi-pulse thermography makes it possible to determine coating thicknesses over a large area and directly by imaging. Extensive studies have shown that coating thickness measurement can be used successfully for paint coatings on both metal and plastic substrates," explains Henriette Quitter.

"Efficient quality control"
Luis Wachter, group leader of the non-destructive testing research group at the SKZ, is delighted with the success: "Henriette Quitter's results are highly relevant for the industry, as they pave the way for the use of multi-pulse thermography for non-destructive and area-based measurement of coating thicknesses. This enables efficient quality control during the coating process and on the finished component, which can lead to more efficient use of resources in the long term." Multi-pulse thermography is therefore an innovative and promising tool for process optimization and digital process design.

Promoting industry-oriented solutions
"OPmobility is proud to support the collaboration between research and industry and to promote young talents of the new generation," adds Aurélien Moressée, Innovation Manager at OPmobility. "With the SKZ Young Talent Award, OPmobility promotes industry-oriented innovative solutions to develop safe and sustainable mobility." As every year, the award ceremony took place as part of the SKZ Network Day.

More about the non-destructive testing research group

Show all news

Contact Person:

Luis Wachter
Group Manager | Non-destructive Testing
Würzburg
l.wachter@skz.de

Ihr Browser ist veraltet

Für das beste Nutzererlebnis auf unserer Webseite empfehlen wir die Verwendung eines aktuellen Webbrowsers. Bitte aktualisieren Sie Ihren Browser, um alle Funktionen störungsfrei verwenden zu können.