[en] The subject is covered under the following headings: principles of materials economy and selection, designation of materials, general construction materials; materials for tools, materials for low temperatures, materials for high temperatures, materials for corrosive stress, materials with high wear resistance and friction materials, sliding and bearing materials, materials for spring load, materials for joints, and materials for nuclear reactors

[en] Within the framework of earlier studies for the MHV project (ILW(Q) and HTGR fuel element experimental programme) FEUSER and BLOCK developed theoretical model approaches to determine the load diversion in emplacing waste packages in underground boreholes filled with crushed salt. The pressure distribution over the borehole depth in the case of completely embedding the waste packages is influenced by the mechanical properties of the bulk crushed salt. For validating the model approaches, therefore, the angle of internal friction, the bed density and the angle of wall friction of a representative crushed salt sample from the Na2 material were measured with a large shearing device of the Jenike type. Variations of the crushed salt parameters comprised the upper grain size of x_o=20 mm and x_o=10 mm, the fine material fraction in seven graduations as well as the temperature of t=60 C, 100 C and 150 C. The influence of possible variations of the chemical-mineralogical composition of the crushed salt was assessed by examining a sample of the Na3 material with x<20 mm. The wall materials (CFRP, V4A steel, rock salt block) and their surface roughness were additionally varied in wall friction experiments. It was found that the fine grain fraction particularly affects the bed density and to a lesser extent the angle of friction. Wall friction is perceptibly influenced by roughness and in part by temperature. The upper grain size and the chemical-mineralogical composition show a relative moderate influence on the properties. (orig.)