Lectures:
- General overview of special materials.
- Characteristics of ceramics and its classification. Characteristic properties and requirements for advanced technical ceramics.
- The causes of brittleness on ceramics, principal and secondary causes. Principles of densification.
- Experimental techniques of ceramic materials.
- Coating, CVD and PVD methods.
- The essence of rapid solidification, structural changes, properties, basic characteristics of rapid cooling.
- Characteristics of amorphous metals (metallic glasses), conditions of their formation.
- Mechanical, magnetic and corrosion properties of metallic glasses. Devitrification.
- Ni superalloys for high temperature works, INCONEL alloys.
- Basic structural characteristics, reinforcement mechanisms, application.
- Physico-chemical and structural characteristics of nanocrystalline materials.
- The preparation technique of nanocrystalline materials, mechanical properties.
- Historical aspects, classification and characterization of polymeric materials.
- Classification of rubber, natural rubber, synthetic rubbers.
- Composite materials with polymer matrix, properties.
- Degradation of polymeric materials.
Exercise:
- Familiarization with the filling of the exercises, literature, safety at work.
- Criteria characterizing the special materials, basic groups and their characteristics, physical and metallurgical basis, comparison with 'traditional' materials.
- Synthetic powders for the preparation of ceramics, basic characteristics, requirements, methods of production and evaluation.
· Granulometry of powders, methods of measurements, including statistical processing of the results, the type of particle size distribution.
· Preparation and properties of sintered materials, porosity, structure, ways of evaluation.
- Metallic glasses, structural analysis, rtg. analysis, devitrification. Determination of the beginning of crystallization.
- Structural phase analysis of INCONEL superalloys, identification of minor phases.
- Evaluation of mechanical properties of polymeric materials.
- Evaluation of the exercises and credits count.
- General overview of special materials.
- Characteristics of ceramics and its classification. Characteristic properties and requirements for advanced technical ceramics.
- The causes of brittleness on ceramics, principal and secondary causes. Principles of densification.
- Experimental techniques of ceramic materials.
- Coating, CVD and PVD methods.
- The essence of rapid solidification, structural changes, properties, basic characteristics of rapid cooling.
- Characteristics of amorphous metals (metallic glasses), conditions of their formation.
- Mechanical, magnetic and corrosion properties of metallic glasses. Devitrification.
- Ni superalloys for high temperature works, INCONEL alloys.
- Basic structural characteristics, reinforcement mechanisms, application.
- Physico-chemical and structural characteristics of nanocrystalline materials.
- The preparation technique of nanocrystalline materials, mechanical properties.
- Historical aspects, classification and characterization of polymeric materials.
- Classification of rubber, natural rubber, synthetic rubbers.
- Composite materials with polymer matrix, properties.
- Degradation of polymeric materials.
Exercise:
- Familiarization with the filling of the exercises, literature, safety at work.
- Criteria characterizing the special materials, basic groups and their characteristics, physical and metallurgical basis, comparison with 'traditional' materials.
- Synthetic powders for the preparation of ceramics, basic characteristics, requirements, methods of production and evaluation.
· Granulometry of powders, methods of measurements, including statistical processing of the results, the type of particle size distribution.
· Preparation and properties of sintered materials, porosity, structure, ways of evaluation.
- Metallic glasses, structural analysis, rtg. analysis, devitrification. Determination of the beginning of crystallization.
- Structural phase analysis of INCONEL superalloys, identification of minor phases.
- Evaluation of mechanical properties of polymeric materials.
- Evaluation of the exercises and credits count.