Remote
Work location
FEA pro needed to model a gas turbine blade. Anyone
About the job
I need support with creating gas turbine blade and analyze its condition when it is operated in different operating conditions (temperature, pressure and speed).
The analysis required:
1. Tangential and axial stresses in blades.
2. Shear stresses.
3. Pressure stress.
4. Velocity stress.
5. Bending stress tangential and axial.
6. Moment at y-y axis.
7. Moment at x-x axis.
8. Stress due to bending at y-y axis.
9. Stress due to bending at x-x axis.
10. Stress at leading edge.
11. Stress at trailing edge.
12. Centrifugal force.
13. Maximum stresses.
14. Temperature distribution and thermal stresses.
15. Low cycle fatigue.
16. High cycle fatigue.
17. Creep.
18. Strain and deflection.
19. Von mises.
The analysis required:
1. Tangential and axial stresses in blades.
2. Shear stresses.
3. Pressure stress.
4. Velocity stress.
5. Bending stress tangential and axial.
6. Moment at y-y axis.
7. Moment at x-x axis.
8. Stress due to bending at y-y axis.
9. Stress due to bending at x-x axis.
10. Stress at leading edge.
11. Stress at trailing edge.
12. Centrifugal force.
13. Maximum stresses.
14. Temperature distribution and thermal stresses.
15. Low cycle fatigue.
16. High cycle fatigue.
17. Creep.
18. Strain and deflection.
19. Von mises.
I need support with creating gas turbine blade and analyze its condition when it is operated in different operating conditions (temperature, pressure and speed).
The analysis required:
1. Tangential and axial stresses in blades.
2. Shear stresses.
3. Pressure stress.
4. Velocity stress.
5. Bending stress tangential and axial.
6. Moment at y-y axis.
7. Moment at x-x axis.
8. Stress due to bending at y-y axis.
9. Stress due to bending at x-x axis.
10. Stress at leading edge.
11. Stress at trailing edge.
12. Centrifugal force.
13. Maximum stresses.
14. Temperature distribution and thermal stresses.
15. Low cycle fatigue.
16. High cycle fatigue.
17. Creep.
18. Strain and deflection.
19. Von mises.
The analysis required:
1. Tangential and axial stresses in blades.
2. Shear stresses.
3. Pressure stress.
4. Velocity stress.
5. Bending stress tangential and axial.
6. Moment at y-y axis.
7. Moment at x-x axis.
8. Stress due to bending at y-y axis.
9. Stress due to bending at x-x axis.
10. Stress at leading edge.
11. Stress at trailing edge.
12. Centrifugal force.
13. Maximum stresses.
14. Temperature distribution and thermal stresses.
15. Low cycle fatigue.
16. High cycle fatigue.
17. Creep.
18. Strain and deflection.
19. Von mises.
I need support with creating gas turbine blade and analyze its condition when it is operated in different operating conditions (temperature, pressure and speed).
The analysis required:
1. Tangential and axial stresses in blades.
2. Shear stresses.
3. Pressure stress.
4. Velocity stress.
5. Bending stress tangential and axial.
6. Moment at y-y axis.
7. Moment at x-x axis.
8. Stress due... read more
The analysis required:
1. Tangential and axial stresses in blades.
2. Shear stresses.
3. Pressure stress.
4. Velocity stress.
5. Bending stress tangential and axial.
6. Moment at y-y axis.
7. Moment at x-x axis.
8. Stress due... read more
I need support with creating gas turbine blade and analyze its condition when it is operated in different operating conditions (temperature, pressure and speed).
The analysis required:
1. Tangential and axial stresses in blades.
2. Shear stresses.
3. Pressure stress.
4. Velocity stress.
5. Bending stress tangential and axial.
6. Moment at y-y axis.
7. Moment at x-x axis.
8. Stress due to bending at y-y axis.
9. Stress due to bending at x-x axis.
10. Stress at leading edge.
11. Stress at trailing edge.
12. Centrifugal force.
13. Maximum stresses.
14. Temperature distribution and thermal stresses.
15. Low cycle fatigue.
16. High cycle fatigue.
17. Creep.
18. Strain and deflection.
19. Von mises. read less
The analysis required:
1. Tangential and axial stresses in blades.
2. Shear stresses.
3. Pressure stress.
4. Velocity stress.
5. Bending stress tangential and axial.
6. Moment at y-y axis.
7. Moment at x-x axis.
8. Stress due to bending at y-y axis.
9. Stress due to bending at x-x axis.
10. Stress at leading edge.
11. Stress at trailing edge.
12. Centrifugal force.
13. Maximum stresses.
14. Temperature distribution and thermal stresses.
15. Low cycle fatigue.
16. High cycle fatigue.
17. Creep.
18. Strain and deflection.
19. Von mises. read less
Things to know
Intermediate
Skill Level
$250
Fixed-rate (USD)
Full-time
Job type
Under 1-month
Job duration
Areas of expertise
Ansys
Finite Element Analysis (FEA)
Stress Analysis
Thermal Analysis
+1 more
Job categories
FEA Finite Element Analysis
Mechanical Engineering
3D Modeling
Languages
English
Native or bilingual proficiency
About the client
Payment ready
United Kingdom (11:33 pm)
Posted
Active
Job activity
31 Applicants
7 interviews in progress
2 unanswered invites
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