Valentino, TobiasTobiasValentinoJägle, Eric A.Eric A.JägleRadel, TimTimRadelSeefeld, ThomasRadel, TimMattulat, Thorsten2022-11-212022-11-212022-11978-3-933762-70-2https://media.suub.uni-bremen.de/handle/elib/631710.26092/elib/1879The identification of material properties at high strain rates is of considerable technical interest, e.g., in applications for passenger safety-related parts which are expected to absorb energy in case of collisions. To additionally meet the requirements of a rapid and resource-efficient materials characterization, a novel highspeed hardness testing method based on laser-induced shock waves was investigated. The principal applicability of this laser-induced shockwave indentation technique for materials characterization at high strain rates is shown.enCC BY 4.0 (Attribution)https://creativecommons.org/licenses/by/4.0/Laser shock processingHigh throughputMeasurement620Artikel/Aufsatzurn:nbn:de:gbv:46-elib63171