Czech

5

Not applicable.

Institute of Technology of Building Materials and Components (THD)

The graduate obtains knowledge of technological operations in the production of building materials.
The graduate obtains information about the principles and possibilities of the use of high-speed water jet in the civil engineering.
The student is able to:
- Describe and define patterns of technological processes of filtration, fluidization, centrifugation, mixing, processes of compactation.
- Describe the characteristics of high-speed water jet, the nature of the operation of this technology and the possibility of using water jet technology in construction.
- Apply selected methods of statistical evaluation for evaluation of production processes.

Knowledge of physics - regularities liquid centrifugal force, the force of gravity, the force of attraction.
Knowledge of mathematics - the calculation of general statistics.
Knowledge of building materials - properties of building materials.

Knowledge of concrete technology - the process of mixing of fresh concrete, concrete compaction process.
Knowledge of Chemistry - Classification of substances according to particle size, particle separation options.
Knowledge of mathematics - General Stats.

Credits are awarded based on attendance and submission of properly prepared reports of exercise.
Teaching methods depend on the teaching methods are described in Article 7 of the Study and Examination Regulations of the University.
For teaching system is used LMS Moodle.
During the lessons are organized excursions, excursions to companies specifically GEAM Dolní Rožínka - comprehensive demonstration of the processes of raw material extraction, processing raw materials, material separation, se

Credits are awarded based on attendance and submission of properly prepared reports of exercise. Attendance at seminars is required. Participation in the field trip is mandatory.
On each student is required to draw up a protocol. Each protocol is evaluated by the teacher.
The test includes a written part and an oral part. Student must pass part of written and oral.

1. Sedimentation. Sedimentation rate. Performance sedimentation.
2. Filtration. The filtration rate. The filtration process.
3. Size of the centrifugal force.
4. Fluidization.
5. Mixing and homogenization of a mixture of substances. Blending in liquid environments. Mixing solid, powdery and paste environment. Mixing efficiency.
6. Basic theory of compaction. Daubing. Vibrating. Pressing. Rolling.
7. High-speed water jet technology. Principle. Parameters. Technical equipment for high-speed water jet technology.
8. Possible applications of high-speed water jet technology in civil engineering. Safety aspects of the use of high-speed water jet.
9. Quality assurance processes according to CSN EN ISO 9001 - Quality Management Systems - Requirements.
10. Environmental management according to DIN EN ISO 140001 Environmental management systems - Requirements with guidance for use.
11. Technical requirements for products
12. Basic information to ensure consistency and accuracy of measuring instruments and measurements according to Law no. 505/1990 Metrology and related regulations.
13. Quality evaluation processes using statistics. Conformance test distribution, quality control. Estimation and hypothesis testing.

Not applicable.

Obtainment of theoretical fundamentals for understanding of technological operations in the production of building materials. Acquaintance with problems of raw materials preparation, mixing of substances, compacting. Acquiring with practical applications of statistical evaluation for concrete problems in the production and evaluation of processes and production quality. Managing of statistical evaluation according to the standard ČSN EN 206 – 1.

Extent and forms are specified by guarantor’s regulation updated for every academic year.

Not applicable.

Not applicable.

Not applicable.

Not applicable.

26 hours, compulsory

1. Ishikawa diagram.
2. Numerical examples sedimentation process. The rate of establishment. Performance sedimentation.
3. Centrifugal process. Size of the centrifugal force.
4. Numerical examples filtration process. The filtration rate. The filtration process.
5. Mixing and homogenization of a mixture of substances. Mixing efficiency. Power mixers.
6. Excursion.
7. Pareto analysis.
8. FMEA (Failure Mode and Effect Analysis)
9. Estimation Theory. Estimates of the basic set of parameters known - calculated - the characteristics of a random sample, the point estimate, determination of confidence intervals.
10. Statistical hypothesis. Testing the significance of differences. Tests compliance division. Outlier test results of observation.
11. Statistical evaluation of concrete classes according to ČSN EN 206 - 1
12. Shewhart control charts. The principle use of practical application, the calculation model examples.
13. Final inspection reports from previous exercises and all course requirements. Credit.