Elastic Deflection Castigliano’s Method If deflection is not covered by simple cases in Table 5.1 (p186) Stored Elastic Energy U Complementary Energy U’ 2 Q ∆ U U ' ⋅ = = dQ ∆ U dU ' ⋅ = = d Incremental: dQ dU ∆ = Deflection: Castiglino’s Theorem: When a body is elastically deflected by any combination of loads, the deflection at any point and in any direction is equal to the partial derivative of strain energy (computed with all loads acting) with respect to a load located at that point and acting in that direction Q U ∆ ∂ ∂ =
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Elastic DeflectionCastigliano’s Method
If deflection is not covered by simple cases in Table 5.1 (p186)
Stored Elastic Energy
U
Complementary Energy U’
2Q∆UU ' ⋅==dQ∆UdU ' ⋅== dIncremental:
dQdU∆ =Deflection:
Castiglino’s Theorem:
When a body is elastically deflected by any combination of loads, the deflection at any point and in any direction is equal to the partial derivative of strain energy (computed with all loads acting) with respect to a load located at that point and acting in that direction
QU∆ ∂∂=
Elastic DeflectionCastigliano’s Method
Table 5.3 (p193): Energy and Deflection Equations
Example: Axial TensionStored Elastic Energy:
Case 1 from Table 5.1:
gives:
For varying E and A:
Elastic DeflectionCastigliano’s Method
(1) Obtain expression for all components of energyTable 5.3
(2) Take partial derivative to obtain deflection
QU∆ ∂∂=Castiglino’s Theorem:
Table 5.3 (p193): Energy and Deflection Equations
Elastic Deflection: Castigliano’s Method
Table 5.3
Here 2 types of loading: Bending and Shear
magnitude @ x:
1. Energy: here it has two components:
first compute Energy, then Partial Derivative to get deflection
2. Partial Derivatives for deflection:(23=8)*3*4 = 96
Table 5.3
Elastic Deflection: Castigliano’s Method
TWO METHODS
Differentiate after Integral Differentiate under Integral
Elastic Deflection: Castigliano’s Method
Transverse shear contributes only <5% to deflection