Cen-puc, MarcoMarcoCen-pucDe Rijk, TimTimDe RijkLehmhus, DirkDirkLehmhusLang, WalterWalterLang2024-09-122024-09-122024-03-29https://publica.fraunhofer.de/handle/publica/47516110.3390/proceedings2024097119This work presents the effect of thermal treatment on the electrical insulation of strainsensors on aluminum substrates. The sensors are meant to be embedded into cast aluminum parts, which are heat-treated for strengthening via precipitation hardening. For sensor manufacturing, thick fil materials are used for the electrical insulation and its connection tracks, whereas sensing platinum structures are produced by sputtering. The effectiveness of different insulation thicknesses was tested for a treatment regime of 7 h at 535 ◦C, which matches solution heat treatment conditions as the most demanding part of the precipitation hardening process. The results showed that insulationis partially lost after treatment, and six consecutive insulating layers are required to produce an insulation capable of withstanding an extended heat treatment.enaluminum castingsensormetal sensorsembedded sensorsstrain sensorstructuralhealth monitoringheat treatmentsmart castingsDDC::500 Naturwissenschaften und Mathematikjournal article