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Strain Strain Energy and Energy and Castigliano’s Castigliano’s Theorem Theorem
Page 2


Strain Strain Energy and Energy and Castigliano’s Castigliano’s Theorem Theorem
o A uniform rod is subjected to a slowly increasing load
o The elementary work done by the load P as the rod
elongates by a small dx is
which is equal to the area of width dx under the
load-deformation diagram.
dU Pdx elementary work ==
o The total work done by the load for deformation x
1
,
which results in an increase of strain energy in the rod.
1
0
x
U P dx total work strain energy = ==
ò
1
2
11
1 11 22
0
x
U kx dx kx Px = ==
ò
o In the case of a linear elastic deformation,
Strain Energy Strain Energy
Page 3


Strain Strain Energy and Energy and Castigliano’s Castigliano’s Theorem Theorem
o A uniform rod is subjected to a slowly increasing load
o The elementary work done by the load P as the rod
elongates by a small dx is
which is equal to the area of width dx under the
load-deformation diagram.
dU Pdx elementary work ==
o The total work done by the load for deformation x
1
,
which results in an increase of strain energy in the rod.
1
0
x
U P dx total work strain energy = ==
ò
1
2
11
1 11 22
0
x
U kx dx kx Px = ==
ò
o In the case of a linear elastic deformation,
Strain Energy Strain Energy Strain Energy Density Strain Energy Density
o To eliminate the effects of size, evaluate the strain
energy per unit volume,
1
1
0
0
x
xx
U P dx
V AL
u d strain energy density
e
se
=
==
ò
ò
o As the material is unloaded, the stress returns to zero but there is a
permanent deformation. Only the strain energy represented by the
triangular area is recovered.
o Remainder of the energy spent in deforming the material is dissipated as
heat.
o The total strain energy density is equal to the area under the curve to e
1
.
Page 4


Strain Strain Energy and Energy and Castigliano’s Castigliano’s Theorem Theorem
o A uniform rod is subjected to a slowly increasing load
o The elementary work done by the load P as the rod
elongates by a small dx is
which is equal to the area of width dx under the
load-deformation diagram.
dU Pdx elementary work ==
o The total work done by the load for deformation x
1
,
which results in an increase of strain energy in the rod.
1
0
x
U P dx total work strain energy = ==
ò
1
2
11
1 11 22
0
x
U kx dx kx Px = ==
ò
o In the case of a linear elastic deformation,
Strain Energy Strain Energy Strain Energy Density Strain Energy Density
o To eliminate the effects of size, evaluate the strain
energy per unit volume,
1
1
0
0
x
xx
U P dx
V AL
u d strain energy density
e
se
=
==
ò
ò
o As the material is unloaded, the stress returns to zero but there is a
permanent deformation. Only the strain energy represented by the
triangular area is recovered.
o Remainder of the energy spent in deforming the material is dissipated as
heat.
o The total strain energy density is equal to the area under the curve to e
1
.
Strain Strain- -Energy Density Energy Density
o The strain energy density resulting from
setting e
1
= e
R
is the modulus of toughness.
o If the stress remains within the proportional
limit,
1
22
11
0
22
xx
E
u Ed
E
e
es
ee = ==
ò
o The strain energy density resulting from
setting s
1
= s
Y
is the modulus of resilience.
2
2
Y
Y
u modulus of resilience
E
s
==
Page 5


Strain Strain Energy and Energy and Castigliano’s Castigliano’s Theorem Theorem
o A uniform rod is subjected to a slowly increasing load
o The elementary work done by the load P as the rod
elongates by a small dx is
which is equal to the area of width dx under the
load-deformation diagram.
dU Pdx elementary work ==
o The total work done by the load for deformation x
1
,
which results in an increase of strain energy in the rod.
1
0
x
U P dx total work strain energy = ==
ò
1
2
11
1 11 22
0
x
U kx dx kx Px = ==
ò
o In the case of a linear elastic deformation,
Strain Energy Strain Energy Strain Energy Density Strain Energy Density
o To eliminate the effects of size, evaluate the strain
energy per unit volume,
1
1
0
0
x
xx
U P dx
V AL
u d strain energy density
e
se
=
==
ò
ò
o As the material is unloaded, the stress returns to zero but there is a
permanent deformation. Only the strain energy represented by the
triangular area is recovered.
o Remainder of the energy spent in deforming the material is dissipated as
heat.
o The total strain energy density is equal to the area under the curve to e
1
.
Strain Strain- -Energy Density Energy Density
o The strain energy density resulting from
setting e
1
= e
R
is the modulus of toughness.
o If the stress remains within the proportional
limit,
1
22
11
0
22
xx
E
u Ed
E
e
es
ee = ==
ò
o The strain energy density resulting from
setting s
1
= s
Y
is the modulus of resilience.
2
2
Y
Y
u modulus of resilience
E
s
==
Elastic Strain Energy for Normal Stresses Elastic Strain Energy for Normal Stresses
o In an element with a nonuniform stress distribution,
0
lim total strain energy
V
U dU
u U u dV
V dV
D®
D
= = ==
D
ò
o For values of u < u
Y
, i.e., below the proportional
limit,
2
2
x
U dV elastic strain energy
E
s
==
ò
o Under axial loading,
x
P A dV A dx s==
2
0
2
L
P
U dx
AE
=
ò
2
2
PL
U
AE
=
o For a rod of uniform cross section,
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FAQs on PPT: Strain Energy & Castigliano’s Theorem - Structural Analysis - Civil Engineering (CE)

1. What is strain energy in civil engineering?
Ans. Strain energy in civil engineering refers to the potential energy stored in a material when it is deformed. It is a measure of how much work or energy is required to deform a material under applied loads.
2. How is strain energy related to Castigliano's theorem?
Ans. Castigliano's theorem is a method used to calculate displacements or rotations at specific points in a structure. Strain energy is used in Castigliano's theorem to determine the partial derivative of the strain energy with respect to the displacement or rotation at a specific point.
3. What is Castigliano's theorem used for in civil engineering?
Ans. Castigliano's theorem is used in civil engineering to calculate deformations and displacements in structures. It is particularly useful in determining the behavior of statically indeterminate structures and analyzing the effects of external loads on the structure.
4. How is strain energy calculated in civil engineering?
Ans. Strain energy can be calculated in civil engineering by integrating the product of the strain energy density (strain energy per unit volume) and the volume of the deformed region. This integration is typically performed over the entire volume of the structure.
5. What are the practical applications of strain energy and Castigliano's theorem in civil engineering?
Ans. Strain energy and Castigliano's theorem have several practical applications in civil engineering. They are used to analyze the behavior of structures under different loading conditions, determine the maximum stress and deformation in structural elements, design and optimize structural components, and assess the stability and safety of structures. Additionally, they are used in the design of bridges, buildings, and other civil engineering structures to ensure their structural integrity and performance.
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