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CIVL3310 STRUCTURAL ANALYSIS

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1 CIVL3310 STRUCTURAL ANALYSIS
Chapter 10: Analysis of Statically Indeterminate Structures by the Force Method CIVL3310 STRUCTURAL ANALYSIS Professor CC Chang

2 Determinate or Indeterminate ?
Yes Structure Equilibrium No

3 Why Indetermiante ? Advantages Smaller stresses and deflections

4 Why Indetermiante ? Advantages Fail safe 1995 Oklahoma City bombing

5 Prices Disadvantages Stresses due to support settlement

6 Prices Disadvantages Stresses due to temperature changes

7 Indeterminate Structures

8 Symmetric Structures Structure Reflection Axis of symmetry
Identical in geometry, supports and material properties

9 Symmetrical Structures

10 Symmetrical Structures

11 Symmetrical Loadings

12 Symmetrical Loadings

13 Anti-Symmetrical Loadings

14 Anti-Symmetrical Loadings

15 Decomposition of Loadings
(B) = (A)/2 (C) = Reflection of (B) sum (B)+(C) Symmetrical (B)-(C) Anti-symmetrical

16 Decomposition of Loadings
Loadings = Symmetrical + Anti-symmetric Loads + =

17 Decomposition of Loadings

18 Decomposition of Loadings

19 Analysis of Symmetrical Structures
Loading Symmetrical Loading Anti-symmetrical Loading Symmetrical Structure Response Response 1 Response 2 +

20 Symmetrical Structures under Symmetrical Loads
P P a L a P Moment & vertical displacement ≠ 0 Slope & axial displacement = 0 slope = 0 M ≠ 0 V ≠ 0

21 Symmetrical Structures under Symmetrical Loads

22 Symmetrical Structures under Anti-symmetrical Loads
Slope ≠ 0 Moment & vertical displacement = 0 P a a L/2 L/2 P P Slope ≠ 0 M = 0 V = 0

23 Symmetrical Structures under Anti-symmetrical Loads

24 Analysis

25 Analysis 6 degrees of indeterminacy 4 degrees of indeterminacy

26 Analysis

27 Analysis of Statically Indeterminate Structures
Force methods This chapter Displacement methods Next two chapters

28 Compatibility DB=0 By

29 Compatibility

30 Compatibility

31 Compatibility

32 Compatibility C C D P P D = A B + 1 1

33 Compatibility

34 Compatibility Settlement

35 Compatibility Settlement

36 Least Work Method Castigliano’s theory P D=? P F M(P,F) D U(P,F)

37 Least Work Method DF F P M(P,F) U(P,F) Obtain F
The magnitude of redundant force must be such that the strain energy stored in the structure is a minimum

38 Least Work Method Virtual work principle +dP DP F +dF P M(P,F)
Castigliano’s theorem Least work principle Note: F does not do any work !

39 Least Work Method Strain energy F1 F2 Fn P1 P2 Pm Forces that do work
Forces that do not do work

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