. . . . "26310" . "[43013492F8CD]" . . . "MECHANICAL PROPERTIES OF MICROSTRUCTURAL COMPONENTS OF INORGANIC MATERIALS"@en . "MECHANICAL PROPERTIES OF MICROSTRUCTURAL COMPONENTS OF INORGANIC MATERIALS" . . "86976" . "S" . . . . . . "cement, geopolymer concrete, calorimetry testing, ultrasonic testing, uniaxial compression testing, nanoindentation testing, correlative microscopy, scanning electron microscopy, energy dispersive spectrometry"@en . . "The doctoral thesis deals with study of structural and mechanical properties of inorganic materials. Goal is to find the weakest (mechanically) phases and interfaces of material. By affecting these structures it should be possible consequently produce a material with better mechanical properties. Due to the large amount of used methods the basic theory is discussed always in the beginning of relevant chapter. Similarly, due to the considerable amount of results every chapter includes partial conclusions. The work is divided in three parts. The first deals with the introduction of the possibilities of modeling micro-mechanical properties and performing of experiments that allow assessment of the scope of some model. In second part itis performed an overview of current possibilities of indentation tests for measuring mechanical properties of structural components of concrete and the practical managing of methods suitable for use for materials research examined at our faculty. In third part the method of"@en . . "RIV/00216305:26310/13:PU108337" . "MECHANICAL PROPERTIES OF MICROSTRUCTURAL COMPONENTS OF INORGANIC MATERIALS" . "The doctoral thesis deals with study of structural and mechanical properties of inorganic materials. Goal is to find the weakest (mechanically) phases and interfaces of material. By affecting these structures it should be possible consequently produce a material with better mechanical properties. Due to the large amount of used methods the basic theory is discussed always in the beginning of relevant chapter. Similarly, due to the considerable amount of results every chapter includes partial conclusions. The work is divided in three parts. The first deals with the introduction of the possibilities of modeling micro-mechanical properties and performing of experiments that allow assessment of the scope of some model. In second part itis performed an overview of current possibilities of indentation tests for measuring mechanical properties of structural components of concrete and the practical managing of methods suitable for use for materials research examined at our faculty. In third part the method of" . . "1"^^ . . . "1"^^ . "MECHANICAL PROPERTIES OF MICROSTRUCTURAL COMPONENTS OF INORGANIC MATERIALS"@en . . "Wasserbauer, Jarom\u00EDr" . . . "RIV/00216305:26310/13:PU108337!RIV14-MSM-26310___" . .