Onsert technology provides local introduction of forces with a structure-protecting and user- friendly way for
complex bonding tasks. In this thesis, material surface optimisation and geometric stiffness optimisation of
glued onsert bondings were developed on isotropic aluminium plates of alloy AlMg1 and
carbon-fibre-reinforced epoxy laminates. Stainless steel alloy 1.4301 was used as an onsert material. The
bonds have been realised with epoxy adhesives. The findings were transferred to and verified on different
anisotropic sandwich components.
«
Onsert technology provides local introduction of forces with a structure-protecting and user- friendly way for
complex bonding tasks. In this thesis, material surface optimisation and geometric stiffness optimisation of
glued onsert bondings were developed on isotropic aluminium plates of alloy AlMg1 and
carbon-fibre-reinforced epoxy laminates. Stainless steel alloy 1.4301 was used as an onsert material. The
bonds have been realised with epoxy adhesives. The findings were transferred to and...
»