During the time that I cooperated in Research programs with Prof. Sol at the University of Brussels (VUB), I discovered the many possibilities and performances of the non-destructive instrument “Resonalyser”. With my background of chemistry, polymers and inorganic materials, I noticed that the Resonalyser instrument could not only identify accurately the material properties, but also could “bridge” the link between macro and micro structures of materials. Resonant vibrations of a material specimen are indeed finger prints, revealing enormous information.Up till now, I still haven’t found any other non-destructive instrument enabling accurate identification of so many engineering constants (like E1, E2, υ12 and G12) in minutes.As managing director of BYTEC BV, I started the development of a commercial industrial version of the Resonalyser in 2017. BYTEC BV now also participates in a 3 year research project supported by the Flemish Government “VLAIO” and Strategic Initiative Materials in Flanders “SIM” since 2020. In this project (in cooperation with the company IMCE N.V. and the University of Brussels), we are developing an “Automated Resonalyser” allowing for the identification of all the complex orthotropic engineering constants of composite material in a temperature range of -80°C till 1200°C.We are willing to share our experience with you. We are willing to help you with all possible problems for your material measurements, especially those who cannot be solved easily with your current instruments. Don’t hesitate to contact us on jun.gu@resonalyser.com