First-principles calculations based on density functional theory (DFT) are used to calculate the structural, elastic and thermodynamic properties of the supersaturated solid-solution AgNi10 alloy, ...applied mainly to electrical contact materials. In this work, for the exchange-correlation energy, the generalized gradient approximation (GGA) functional is used. The calculated structural and electronic properties of supersaturated solid-solution AgNi10 alloys show that the occupation of Ni in the Ag lattice is ordered. All single-crystal elastic stiffness constants of the energetically and mechanically optimized stable AgNi10 model are calculated using the finite strain method and using the Voigt-Reuss-Hill approximation. Various anisotropic indices like the universal anisotropic index, shear anisotropic index, directional dependence of Young’s modulus, bulk modulus and others are calculated to study the elastic anisotropy. The strong anisotropy in the elastic properties of AgNi10 was confirmed. Phonon dispersions were carried out, showing that the AgNi10 crystal has dynamic stability. The Debye temperature is calculated from the elastic data by estimating the average sound velocity in the AgNi10. Furthermore, the vibrational thermodynamic properties (free energy, enthalpy, entropy and heat capacity) of AgNi10 are obtained successfully.
Ein Lehrbuch für Studierende der Landschaftsarchitektur zur Geländemodelllierung im Planungs- und Bauprozess. Mit detaillierten Informationen zur digitalen Geländemodellierung, inklusive ...GPS-Technologie. Peter Petschek is a landscape architect and a professor at the HSR Hochschule für Technik Rapperswil (Rapperswil University of Applied Sciences). He teaches the courses in execution, grading, CAD, DHM, and 3D landscape visualization in the Bachelor's and Master's Programs of the Department of Landscape Architecture. He also directs the Fachstelle für Garten- und Landschaftsbau (Research Center for Materials and Construction) of the Institut für Landschaft und Freiraum (ILF, Institute for Landscape and Open Space). The ILF is active in applied research in all areas of landscape architecture.