Lectures:
1.Gravimetric procedure in chemical analysis, principle.
2.Volumetric analysis - Neutralization, Chelatometry. The indicators in volumetric analysis, examples.
3.Principle of spectral separation methods and chemical analysis. Absorption spectral analysis, Lambert - Beer law. Colorimetry, photometry, spectrophotometry.
4.Emission spectral analysis. X-ray fluorescence analysis.
5.Overview of methods of phase analysis.
6.DTA, TG, dilatometry and thermo-mechanical analysis. Simultaneous thermal analysis applications.
7.Principle of DSC calorimetry.
8.Calvets - Tian's equation in calorimetry applications. The basic methodology for calorimetric measurements.
9.X-ray diffraction, Bragg equation, applications. X-ray, formation, monochromatization, utilization.
10.X-ray diffraction phase analysis - identification one substance. X-ray procedure phase analysis of mixtures of minerals.
11.X-ray microanalysis, the principle use
12.Principles and applications of the TEM imaging.
13.Principles, and applications of SEM imaging (REM).
Seminars:
1.Preparation of solutions for chemical analysis. Expressing the composition of standard solutions, determine the titre. Decomposition of samples for chemical analysis, storage solution.
2.Determination of SiO2 + non decomposable share R2O3 determination, determination of loss on drying and annealing.
3.Volumetric determination of CaO and MgO.
4.Photometric determination of Fe2O3.
5.DTA - evaluation of measurement applications. TG - analysis of data usage.
6.X-ray diffraction phase analysis..
1.Gravimetric procedure in chemical analysis, principle.
2.Volumetric analysis - Neutralization, Chelatometry. The indicators in volumetric analysis, examples.
3.Principle of spectral separation methods and chemical analysis. Absorption spectral analysis, Lambert - Beer law. Colorimetry, photometry, spectrophotometry.
4.Emission spectral analysis. X-ray fluorescence analysis.
5.Overview of methods of phase analysis.
6.DTA, TG, dilatometry and thermo-mechanical analysis. Simultaneous thermal analysis applications.
7.Principle of DSC calorimetry.
8.Calvets - Tian's equation in calorimetry applications. The basic methodology for calorimetric measurements.
9.X-ray diffraction, Bragg equation, applications. X-ray, formation, monochromatization, utilization.
10.X-ray diffraction phase analysis - identification one substance. X-ray procedure phase analysis of mixtures of minerals.
11.X-ray microanalysis, the principle use
12.Principles and applications of the TEM imaging.
13.Principles, and applications of SEM imaging (REM).
Seminars:
1.Preparation of solutions for chemical analysis. Expressing the composition of standard solutions, determine the titre. Decomposition of samples for chemical analysis, storage solution.
2.Determination of SiO2 + non decomposable share R2O3 determination, determination of loss on drying and annealing.
3.Volumetric determination of CaO and MgO.
4.Photometric determination of Fe2O3.
5.DTA - evaluation of measurement applications. TG - analysis of data usage.
6.X-ray diffraction phase analysis..