1)The issue of the draft suspension vehicle. Analysis of suspension vehicle used in sports cars. Used materials and technologies in the development process suspension vehicle.
2)Proposal for dimensional parameters and tires determine the dimensional parameters for analyzing suspension vehicle geometry car.
3)Data processing analysis, geometry suspension vehicle, transfer into the CAD system.
4)Selection of available component base suspension vehicle, and their materials and stress analysis.
5)The design parameters for suspension draft dampers with spring.
6)Design of the brake system, basic calculations.
7)Selection of suitable materials for brake discs and pads, new trends in materials, brake discs and pads.
8)Part modeling component base in CAD software. The formation of the suspension vehicle.
9)Analysis of extreme positions, demonstration conducted metallographic tests of parts including chemistry.
10)Based on power analysis, the choice of appropriate materials.
11)Sizing structural element, strength calculation.
12)Selection of suitable technology, including heat treatment and surface finishing.
13)Draft shape and material strapless and wheel carrier, including material and technological aspects.
14)Presentation of semester project.
2)Proposal for dimensional parameters and tires determine the dimensional parameters for analyzing suspension vehicle geometry car.
3)Data processing analysis, geometry suspension vehicle, transfer into the CAD system.
4)Selection of available component base suspension vehicle, and their materials and stress analysis.
5)The design parameters for suspension draft dampers with spring.
6)Design of the brake system, basic calculations.
7)Selection of suitable materials for brake discs and pads, new trends in materials, brake discs and pads.
8)Part modeling component base in CAD software. The formation of the suspension vehicle.
9)Analysis of extreme positions, demonstration conducted metallographic tests of parts including chemistry.
10)Based on power analysis, the choice of appropriate materials.
11)Sizing structural element, strength calculation.
12)Selection of suitable technology, including heat treatment and surface finishing.
13)Draft shape and material strapless and wheel carrier, including material and technological aspects.
14)Presentation of semester project.