1. Small Airplane Dragon Design - Concepts, prescriptive requirements for static and fatigue strength, fail safe construction, safe and durable design, structural stresses.
2. Practical demonstrations of the solution of composite materials.
3. Technology of joining structural elements (riveting, screw joints, bonding, welding).
4. Surface protection (anodizing, chrome plating, cadmium, lacquering, etc.).
5. Demonstration of the solution of joining of composite parts by gluing with special adhesives and finishing of these materials using glass reinforcements, carbon and aramid fibers.
6. Ensuring the symmetry of the structure when installing repairs.
7. Airplane movement theory and specific management issues
8. Primary tilt and direction control (wing and rudder)
9. Secondary control of a small airplane
10. Small airplane landing
11.Construction of the fuselage, wing and tail surfaces of a small airplane.
2. Practical demonstrations of the solution of composite materials.
3. Technology of joining structural elements (riveting, screw joints, bonding, welding).
4. Surface protection (anodizing, chrome plating, cadmium, lacquering, etc.).
5. Demonstration of the solution of joining of composite parts by gluing with special adhesives and finishing of these materials using glass reinforcements, carbon and aramid fibers.
6. Ensuring the symmetry of the structure when installing repairs.
7. Airplane movement theory and specific management issues
8. Primary tilt and direction control (wing and rudder)
9. Secondary control of a small airplane
10. Small airplane landing
11.Construction of the fuselage, wing and tail surfaces of a small airplane.