MATERIALS

Materials science is an important part of materials science that deals with the structure, properties and processing methods of materials. This discipline is used to identify and optimize the best possible materials for a particular design in order to achieve the highest possible performance and quality.

Materials science examines both the chemical and mechanical properties of materials and is crucial in determining the structure and quality of constructions.

The course of training and the duration of training depend on the trainee’s level of experience

Training content

Fundamentals of materials science

• Importance of materials science in technology
• Material structure
• Material properties
• Requirements for materials

Metallic materials

• Metallurgy
• Structure of the crystals
• Consolidation mechanisms
• Alloys

Alloy Iron Carbon

• Iron – Carbon – Diagram
• Cooling curves
• Influence of carbon

Steels

• Production and classification
• Steels for general use
• EN 10025
• High-strength steels
• Heat-resistant steels
• Cast steel

High-alloy steels

• Production and classification
• Applications
• Alloying elements
• Ferrite former
• Austenite former
• Corrosion resistance

Heat treatment

• Annealing process
• Hardening
• Remuneration
• Thermomechanical processes
• Surface hardening

Corrosion and corrosion protection

• Basics
• Chemical corrosion
• Physical metal corrosion
• Electrochemical corrosion
• Types of corrosion and corrosion phenomena
• Corrosion protection

Materials testing

• Tasks of materials testing
• Material characteristics
• Load types
• Non-destructive material testing
• Destructive material testing
• Quality control