Bachelor of Design of internal combustion engine

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Uploaded: 05.10.2006
Content: 61005205704780.rar (1777,16 kB)

Description

Initial data:
V6, S / D = 1.1, R / L = 1 / 3.6, n = 3500, = 84 mm Dtsil

Contents
Justification sketch layout engine
1.1.Naznachenie dvigatelya.Obschaya circuit and the drive timing
1.2.Analiz orders of cylinders
1.3.Analiz balance Engine
1.4.Material main details
1.4.1.Material piston
1.4.2.Material rods
1.4.3.Material crankshaft and flywheel
1.4.4.Material crank case and pallet
1.4.5.Golovka cylinders
1.5.Komponovka systems
1.5.1.Sistema fuel
1.5.2.Sistema lubrication
1.5.3.Sistema cooling
1.5.4.Vpusknaya and exhaust system

2.Teplovoy calculation engine
2.1.Opredelenie quantitative parameters of the working fluid
2.2.Utochnenie thermodynamic parameters of the environment and the residual gases
2.3.Raschet thermodynamic parameters and indicators of admission
2.4.Raschet thermodynamic parameters and indicators of the compression process
2.5.Termohimichesky and thermodynamic combustion stages tascheta
2.6.Raschet thermodynamic parameters and indicators for the enlargement process
2.7.Raschet indicator cycle indicators
2.8.Raschet effective indicators cycle
2.9.Opredelenie basic constructive sizes and the specific motor parameters
2.10.Indikatornaya chart

3. The kinematic and dynamic analysis
3.1. The kinematics of the piston
3.2. The kinematics of the connecting rod
3.4. Forces in a single crank
3.5. Determination of loads on the crankshaft
3.6. Diagrams of the relative wear necks
3.7. The total and average torque

4. The choice of design and calculation of the strength of the main engine components (crank)
4.1. Working conditions and the nature and site of action of loads, features interaction with mating parts
4.2. Justification of the choice of material, heat treatment and methods of hardening of details
4.3. Calculation of strength. Findings

5. Engine Timing
5.1. The layout of the timing
5.2. Definition of mutual rapolozheniya exhaust and inlet cams one cylinder
5.3. Calculation caliber conical facets of valves
5.4. Determining the mass of details
5.5. An analysis of dimensional chains
5.6. The kinematic parameters
5.7. Dynamic analysis of MHR
5.8. Determination of forces acting on the parts MHR

6. Analysis of the possibility of collision of the piston and valve
7. The gas-dynamic calculation of automotive turbocharger internal combustion engine.
Compressor stages.
The turbine stage.
8.Toplivnye system engine.

References.

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