truss structures - priodeep's...
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Truss Structures
Truss Definitions and Details1
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Truss: Mimic Beam Behavior
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Bridge Truss Details 3
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Framing of a Roof Supported Truss
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Common Roof Trusses
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Common Bridge
Trusses
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Buckling Calculations2
weakcr 2
EIP( L)
buckling force
π=
=k
effective length factor
1 for an ideal truss member
=
=
k
k
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Types of TrussesBasic Truss Element≡ three member triangular truss
Simple Trusses – composed of basic truss elements
m = 3 + 2(j - 3) = 2j - 3
for a simple truss
m ≡ total number of membersj ≡ total number of joints
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Simple Truss
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Compound Trusses –constructed by connecting two or more simple trusses to form a single rigid body
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Complex Trusses – truss that is neither simple nor compound
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Analysis of TrussesThe analysis of trusses is usually
based on the following simplifying assumptions:
•The centroidal axis of each member coincides with the line connecting the centers of the adjacent members and the members only carry axial force.
•All members are connected only at their ends by frictionless hinges in plane trusses.
•All loads and support reactions are applied only at the joints.
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The reason for making these assumptions is to obtain an ideal truss, i.e., a truss whose mem-bers are subjected only to axial forces.
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Primary Forces ≡ member axial forces determined from the analysis of an ideal trussSecondary Forces ≡ deviations from the idealized forces, i.e., shear and bending forces in a truss member.Our focus will be on primary forces. If large secondary forces are anticipated, the truss should be analyzed as a frame.
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Method of JointsMethod of Joints - the axial forces in the members of a statically determinate truss are determined by considering the equilibrium of its joints.
Tensile (T) axial member forceis indicated on the joint by an arrow pulling away from the joint.
Compressive (C) axial member force is indicated by an arrow pushing toward the joint.
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Method of Joints Example C
22 kips
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Truss Solution
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Zero Force Members:(a) If only two noncollinear
members are connected to a joint that has no external loads or reactions applied to it, then the force in both members is zero.
(b) If three members, two of which are collinear, are connected to a joint that has no external loads or reactions applied to it, then the force in the member that is not collinear is zero.
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19Zero Force Members
θ
θ
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Zero Member Force Calculations
Figure (a):
y ABF 0 F cos= = θ∑ABF 0∴ =
x AC ABF 0 F F sin= = + θ∑0
ACF 0∴ =
Figure (b):
y ACF 0 F cos= = θ∑ACF 0∴ =
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Truss analysis is easier if one can first visually iden-tify zero force members
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Method of SectionsThe method of sections enables one to determine forces in specific truss members directly.
Method of Sections ≡ involves cutting the truss into two portions (free body diagrams, FBD) by passing an imaginary section through the members whose forces are desired. Desired member forces are determined by considering equilibrium of one of the two FBD of the truss.
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Method of sections can be used to determine three unknown member forces per FBD since all three equilibrium equations can be used.
Method of Sections Example23
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BC
HG
HC
F __________F __________F __________
===
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Statics Principle of Transmissibility
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Transmissibility principle of statics states that a force can be applied at any point on its line of action without a change in the external effects
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BC
GF
F ____F ____
==
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JC
JF
F ____F ____
==
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K-Truss Solution
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Determinacy and StabilityInternal Stability ≡ number and arrangement of members is such that the truss does not change its shape when detached from the supports.
External Instability ≡ instability due to insufficient number or arrangement of external supports.
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Internal Stability
m < 2j – 3⇒ truss is internally unstable
m ≥ 2j – 3⇒ truss is internally stable provided it is geometrically stable
m ≡ total number of membersj ≡ total number of joints
Geometric stability in the second condition requires that the members be properly arranged.
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Statically Determinate Truss ≡if all the forces in all its members as well as all the external reac-tions can be determined by using the equations of equilibrium.
Statically Indeterminate Truss≡ if all the forces in all its mem-bers as well as all the external reactions cannot be determined by using the equations of equi-librium.
External Indeterminacy ≡excess number of support reactions
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Internal Indeterminacy ≡ excess number of members
Redundants ≡ excess members or reactions
Number of redundants defines the degree of static indeterminacy I
Summarym + R < 2j
⇒ statically unstable trussm + R = 2j
⇒ statically determinate trussm + R ≥ 2j
⇒ statically indeterminate truss
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The first condition is always true.
But, the last two conditions are true if and only if the truss is geometrically stable.
The analysis of unstable trusses will always lead to inconsistent, indeterminant, or infinite results.
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Truss Determinacy Calculations
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Truss Determinacy Calculations
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37Equations of Condition: Plane Trusses