Structural materials are known for their mechanical properties, e.g. elastic modulus, strength, toughness. These parameters are associated to the homogeneity of the material, i.e. intrinsic material properties. However, layered materials like fibre reinforced composite laminates, sandwich materials, reinforced glass, adhesive joints, to name few, are intrinsically (at microscale – e.g. composition of composite laminae) and extrinsically (macroscale – e.g. multilayer structure of solar panel) heterogeneous. To allow transfer of the load between the constituents the quality of the interface between them is crucial. But there is even more options. Understanding details of the load carrying phenomena and subsequent design of interfaces – their physical and geometrical features, can give a chance to tune behaviour of the final, structural scale, material. Thus, interfaces are a way towards assigning new, unexpected, specific, ‘meta’ functionalities to otherwise known materials. This approach appears to be of huge scientific (increasing number of published papers) and industrial (e.g. patterning of surfaces to be joined appearing allowing tuning the mechanical properties and limiting the use of surface pre-treatment) potential.