Fundamentals of Reinforced Concrete Design to Eurocode 2
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Introduction and Course Breakdown
1. Course overview
2. Who is this course for?
3. The optional role of Python in this course
Support and Lecture Q&A (Please read!)
Actions and Limit State Design
4. Section overview
4.1 Data tables
5. The relevant codes for this course
6. Actions on structures
7. Ultimate limit state design
8. Serviceability limit state design
9. Worked Example 1
10. Worked Example 2
Bending of Reinforced Concrete
11. Section overview
12. Material properties
13. Cross-section analysis
14. Ultimate moment capacity
15. Worked Example 3
16. Worked Example 4
17. Worked Example 5a
18. Worked Example 5b
18.1 Jupyter Notebook (lecture 18)
19. Doubly-reinforced sections
20. Worked Example 6
21. Worked Example 7
22. Flanged Beam Design
23. Worked Example 8
24. Worked Example 9
Mid-course check-in
Shear Resistance of Reinforced Concrete
25. Section overview
26. Shear behaviour in beams
27. A model of reinforced shear resistance
28. Worked Example 10: Full design including shear
29. Worked Example 11: Shear design
30. Longitudinal shear in flanged beams
31. Worked Example 12: Full flanged beam design
Automating section analysis in Python
32. Section overview
32.1 Jupyter Notebooks (lectures 33-40)
33. Designing singly reinforced sections
34. Expanding to doubly reinforced sections
35. Expanding to singly reinforced flanged sections
36. Determining the correct analysis case
37. Under-reinforced section analysis
38. Over-reinforced section analysis
39. Doubly reinforced section analysis
40. Flanged section analysis
Course wrap up
41. Course wrap up and certificate of completion
Products
Course
Section
Lesson
4.1 Data tables
4.1 Data tables
Fundamentals of Reinforced Concrete Design to Eurocode 2
Buy now
Learn more
Introduction and Course Breakdown
1. Course overview
2. Who is this course for?
3. The optional role of Python in this course
Support and Lecture Q&A (Please read!)
Actions and Limit State Design
4. Section overview
4.1 Data tables
5. The relevant codes for this course
6. Actions on structures
7. Ultimate limit state design
8. Serviceability limit state design
9. Worked Example 1
10. Worked Example 2
Bending of Reinforced Concrete
11. Section overview
12. Material properties
13. Cross-section analysis
14. Ultimate moment capacity
15. Worked Example 3
16. Worked Example 4
17. Worked Example 5a
18. Worked Example 5b
18.1 Jupyter Notebook (lecture 18)
19. Doubly-reinforced sections
20. Worked Example 6
21. Worked Example 7
22. Flanged Beam Design
23. Worked Example 8
24. Worked Example 9
Mid-course check-in
Shear Resistance of Reinforced Concrete
25. Section overview
26. Shear behaviour in beams
27. A model of reinforced shear resistance
28. Worked Example 10: Full design including shear
29. Worked Example 11: Shear design
30. Longitudinal shear in flanged beams
31. Worked Example 12: Full flanged beam design
Automating section analysis in Python
32. Section overview
32.1 Jupyter Notebooks (lectures 33-40)
33. Designing singly reinforced sections
34. Expanding to doubly reinforced sections
35. Expanding to singly reinforced flanged sections
36. Determining the correct analysis case
37. Under-reinforced section analysis
38. Over-reinforced section analysis
39. Doubly reinforced section analysis
40. Flanged section analysis
Course wrap up
41. Course wrap up and certificate of completion
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