civl3310 structural analysis
DESCRIPTION
CIVL3310 STRUCTURAL ANALYSIS. Chapter 2: Analysis of Statically Determinate Structures. Professor CC Chang. Idealized Structure. To model or idealize a structure so that structural analysis can be performed. Idealized Structure. Support Connections Pin connection (allows slight rotation) - PowerPoint PPT PresentationTRANSCRIPT
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CIVL3310 STRUCTURAL ANALYSIS
Professor CC Chang
Chapter 2: Chapter 2: Analysis of Statically Determinate Analysis of Statically Determinate
StructuresStructures
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Idealized Structure To model or idealize a structure so that structural
analysis can be performed
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Idealized Structure Support Connections
Pin connection (allows slight rotation) Roller support (allows slight rotation/translation) Fixed joint (allows no rotation/translation)
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Idealized Structure
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Idealized Structure In reality, all connections and supports are modeled with
assumptions. Need to be aware how the assumptions will affect the actual performance
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Idealized Structure
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Idealized Structure Idealized Structure
No thickness for the components The support at A can be modeled as a fixed support
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Idealized Structure Idealized Structure
Consider the framing used to support a typical floor slab in a building
The slab is supported by floor joists located at even intervals These are in turn supported by 2 side girders AB & CD
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Idealized Structure Idealized Structure
For analysis, it is reasonable to assume that the joints are pin and/or roller connected to girders & the girders are pin and/or roller connected to columns
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Idealized Structure Tributary Loadings
There are 2 ways in which the load on surfaces can transmit to various structural elements
1-way system 2-way system
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Idealized Structure Tributary Loadings
1-way system
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Idealized Structure Tributary Loadings
2-way system
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Principle of Superposition
)(xy
)x(y1
)x(y2
)x(y)x(y 21 =
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Principle of Superposition Total disp. (or internal loadings, stress) at a point in a structure
subjected to several external loadings can be determined by adding together the displacements (or internal loadings, stress) caused by each of the external loads acting separately
Linear relationship exists among loads, stresses & displacements
2 requirements for the principle to apply: Material must behave in a linear-elastic manner, Hooke’s Law is valid The geometry of the structure must not undergo significant change when the
loads are applied, small displacement theory
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Equilibrium and Determinacy For general 3D equilibrium:
For 2D structures, it can be reduced to:
0 0 0
0 0 0
zyx
zyx
MMM
FFF
0
0
0
o
y
x
M
F
F
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Equilibrium and Determinacy
1F
2F 3F
P wA B
1F
2FAM
P wA B
3 EQs 3 unknown reactions
Stable Structures!
0
0
0
o
y
x
M
F
F
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Equilibrium and Determinacy
3F
1F 2F 3F
P wA B
Stable Structures?
1F
2FAM
P wA B
Stable Structures?
3 EQs 3 unknown reactionsNot properly supported
3 EQs 4 unknown reactionsIndeterminate stable1 degree indeterminancy
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Equilibrium and Determinacy
3F
1F
2FAM
P wA B
Stable Structures !Stable Structures ?
1F
2FAM
3F
5F
4F
4F
6 equilibrium conditions
6 unknown forces
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Equilibrium and Determinacy
3F
P wA B
3F4F
5F
4 equilibrium conditions
4 unknown forces
C
3 equilibrium conditions
0 cbcM
+1F
2FAM
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Equilibrium and Determinacy Equilibrium and Determinacy
If the reaction forces can be determined solely from the equilibrium EQs STATICALLY DETERMINATE STRUCTURE
No. of unknown forces > equilibrium EQs STATICALLY INDETERMINATE
Can be viewed globally or locally (via free body diagram)
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Equilibrium and Determinacy Determinacy and Indeterminacy
For a 2D structure
The additional EQs needed to solve for the unknown forces are referred to as compatibility EQs
ateindetermin statically ,3
edeterminat statically ,3
nr
nr
No. of unknown forces
No. of components
acyindetermin of degree : n3r
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Discuss the Determinacy
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Discuss the Determinacy
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Stability To ensure equilibrium (stability) of a structure or its
members: Must satisfy equilibrium EQs Members must be properly held or constrained by their
supports There is a unique set of values for reaction forces and internal
forces
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Determinacy and Stability Partial constraints
Fewer reactive forces than equilibrium EQs Some equilibrium EQs can not be satisfied Structure or Member is unstable
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Determinacy and Stability Improper constraints
In some cases, unknown forces may equal equilibrium EQs However, instability or movement of structure could still occur if
support reactions are concurrent at a point
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Determinacy and Stability Improper constraints
Parallel
Concurrent
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Determinacy and Stability
6 Reactions – 6 Conditions
B CP/2
B
CP/2
unstable stable
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Solving Determinate StructuresDetermine the reactions on the beam as shown.
135 kN
60.4 kN 173.4 kN50.7 kNIgnore thickness
183.1 kNIgnore thickness
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Example 2.13The side of the building subjected to a wind loading that creates a uniform normal pressure of 15kPa on the windward side & a suction pressure of 5kPa on the leeward side. Determine the horizontal & vertical components of reaction at the pin connections A, B & C of the supporting gable arch.
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Solution
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Example
20m 20m 50m 20m 20m
5 kN/m3 kN/m
ACB
FD E
Ax
AyFyDyCy
5 unknown forcesNeeds 5 equations (equilibrium conditions)
• 3 global equilibriums• 2 hinge conditions
010100A20M yABB
Ax
Ay
A BBy
Bx
5 kN/m
01060F20M yEFE
Ex
Ey
E FFy
3 kN/m
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Summary
Difference between an actual structure and its idealized model
Principle of superposition Equilibrium, determinacy and stability Analyzing statically determinate structures