Course Details

Experimental Laboratory Methods

Academic Year 2024/25

BJA011 course is part of 1 study plan

BPC-SI / M Summer Semester 3rd year

Course Guarantor

Institute

Language of instruction

Czech

Credits

4 credits

Semester

summer

Forms and criteria of assessment

course-unit credit and examination

Offered to foreign students

Not to offer

Course on BUT site

Lecture

13 weeks, 2 hours/week, elective

Syllabus

1. Familiarization with the subject content, survey of laboratory methods in the branch of silicates. 2. Sampling, preparation and treatment of samples for individual methods. 3. X-ray diffraction analysis, apparatuses, principle and utilization. 4. Microscopy in the range of the visible spectrum, apparatuses, principle and preparations. 5. Electron transmission microscopy, principle, apparatuses, utilization. 6. Scanning electron microscopy, principle, apparatuses, utilization. 7. Methods of grain size and specific surface determination. 8. Methods of density, volume mass and absorption determination. 9. High pressure mercury porozimetry, principle, apparatuses, utilization. 10. Differential thermal analysis, principle apparatuses, utilization. 11. Gravimetric thermal analysis, principle, utilization. 12. Contraction dilatometric thermal analysis, principle, utilization. 13. Principles of building materials testing, quality control, harmonization of 13standards and regulations.

Exercise

13 weeks, 2 hours/week, compulsory

Syllabus

1. Introduction exercise. Students are introduced with the laboratory procedure and safety. They are introduced with filling exercise and the conditions for obtaining the credit, 2. The methods used for thermal analysis – typical model (sample) for differential thermal analysis, 3. The use of differential thermal analysis in the evaluation of specific building materials, 4. The practical example of the use of dilatation contraction thermal analysis, 5. X-ray diffraction analysis - a case study, 6. Use of X-ray diffraction analysis in the evaluation of specific building materials, 7. Methods for determining the porosity of the material. A practical example of high-pressure porosimetry interpretation of the results, a sample calculation of method BET, 8. Utilization X-ray fluorescence methods in the analysis of silicate materials, 9. Excursion to the workplace equipped with sophisticated laboratory equipment, 10. Utilization infrared absorption spectrography methods in the evaluation of building materials, 11. Utilization methods for determining particle size - sedimentation methods, using the laser beam, etc., 12. The comprehensive assessment of the state respectively. rate of degradation of a particular building material, 13. Credit test, grant of the credit.