Slaby, S.A.S.A.SlabyKraft, O.O.KraftEberl, C.C.Eberl2022-03-052022-03-052016https://publica.fraunhofer.de/handle/publica/24439310.1111/ffe.12416Micro-powder injection moulding (PIM) is a promising mass manufacturing technique for the microsystem technology. Because typical applications - like sensors or actuators - need to withstand serious mechanical loadings, the investigations of the mechanical properties are of vital importance. Therefore, we implemented a small-scale testing setup that enables tensile and tension-tension-fatigue testing of freestanding micro-samples. This allowed for investigating tensile and fatigue properties of conventionally produced and PIM 17-4PH stainless-steel thin membranes. The conventionally produced samples were machined from bulk material and showed properties and lifetimes comparable with the best bulk samples. The PIM samples showed a weaker but more ductile behaviour, due to a ferritic phase and SiO2 inclusions. But their ultimate tensile strength of up to S-U=1021 +/- 48MPa and their relative fatigue strength of approximate to 46% S-U (R=-1) are still comparable with average bulk values. This indicates the high potential of PIM materials.enmicro-powder injection moulding (PIM)tension-tension-fatigue testingmicro-samples17-4PH stainless-steel683journal article