LECTURES :
- Current trends in the development of new materials and technologies.
- Ceramic materials, properties, structural characteristics, basic requirements for new types of technical ceramics, basic technological characteristics. Ceramic subdivision.
- The causes of ceramic brittleness, principal and secondary causes.
- Principles of suppression, crack propagation in ceramic materials (densification), optimization of the structure, phase transformation.
- The structure and strengthening mechanisms of ceramic materials, analysis of defects inducing the breach of ceramic materials.
- Ceramics based on silicon.
- Evaluation of the mechanical properties of ceramic materials under different loading methods.
- Experimental techniques of ceramic materials.
- Surface layers, deposition methods, CVD, PVD.
- Composite materials (composites), distribution, properties, particle and fiber composites. Ceramic matrix composites.
- Polymer materials. The historical aspects, classification and characterization of polymeric materials.
- Classification of rubber, natural rubber, synthetic.
- Phenomenological foundations of viscosity.
- Degradation of polymer materials.
EXERCISE:
- Introduction exercises.
- An overview of advanced structural materials.
- Evaluation of fracture toughness of unconventional materials.
- Material properties of ceramic materials cuts.
- Evaluation of fracture toughness of oxide ceramics with indentation technique.
- Evaluation of fracture toughness of nitride ceramics with indentation technique.
- Evaluation of the response of oxide and nitride ceramics with indentation technique for repeated loading.
- Composite (compound) materials. Preparation and evaluation of different types of structures on composite materials.
- Degradation efects and stress-deforming behavior of composite materials.
- Plastics. Evaluation of mechanical properties.
- Control test.
- Credit count.
- Current trends in the development of new materials and technologies.
- Ceramic materials, properties, structural characteristics, basic requirements for new types of technical ceramics, basic technological characteristics. Ceramic subdivision.
- The causes of ceramic brittleness, principal and secondary causes.
- Principles of suppression, crack propagation in ceramic materials (densification), optimization of the structure, phase transformation.
- The structure and strengthening mechanisms of ceramic materials, analysis of defects inducing the breach of ceramic materials.
- Ceramics based on silicon.
- Evaluation of the mechanical properties of ceramic materials under different loading methods.
- Experimental techniques of ceramic materials.
- Surface layers, deposition methods, CVD, PVD.
- Composite materials (composites), distribution, properties, particle and fiber composites. Ceramic matrix composites.
- Polymer materials. The historical aspects, classification and characterization of polymeric materials.
- Classification of rubber, natural rubber, synthetic.
- Phenomenological foundations of viscosity.
- Degradation of polymer materials.
EXERCISE:
- Introduction exercises.
- An overview of advanced structural materials.
- Evaluation of fracture toughness of unconventional materials.
- Material properties of ceramic materials cuts.
- Evaluation of fracture toughness of oxide ceramics with indentation technique.
- Evaluation of fracture toughness of nitride ceramics with indentation technique.
- Evaluation of the response of oxide and nitride ceramics with indentation technique for repeated loading.
- Composite (compound) materials. Preparation and evaluation of different types of structures on composite materials.
- Degradation efects and stress-deforming behavior of composite materials.
- Plastics. Evaluation of mechanical properties.
- Control test.
- Credit count.