NTNU
NorwegianUniversity of Science
and Technology.
Faculty of Marine Technology
Department of Marine Structures.
Exercise3
TMR4205 Buckling and Collapse Structures
Plastic analysis of frame
______
Date: January 2012 Signature: EKim Distributed Date: 23.01.12 Due Date:30.01.12
Figure 1 shows a portal frame subjected to a horizontal load at the upper left corner,
and a vertical load at the mid-span of the beam. All members are of pipe cross-
sectional shape having a dimension of 500mmx20mm. The yield stress is 300MPa
and 360MPa for columns and beam, respectively, and the bending moment capacities
are Mp and 1.2Mp for columns and beam, respectively. L is given in meters.
V
H
1.2 Mp
Mp
0.7L
0.7L
Mp
L
Figure 1. A portal frame.
a) Sketch the potential collapse mechanisms and calculate the associated plastic
collapse loads.
b) Present the solutions from part (a) in an x-y plot where thex-axis represents the
horizontal load, and they-axis represent the vertical load. You will observe that
the graph splits the area into various domains, explain what do the domains
represent? What collapse mechanism is governing when V2HPand
VHP , respectively.
c)For V2 H=P, calculate the elastic moment distribution by means of the Unit Load method or by using the following information: At the upper right corner of the frame (Figure 1) the elastic bending moment is equal 0.37PL. (Hint: In the present case, it is convenient to introduce a hinge at theupper right corner, in order to make the structure statically determinate).
d) Determine the load level corresponding to the first plastic hinge and calculate the
corresponding horizontal deformation of the frame. Express the load and
deformation in terms of the plastic moment capacity, Mp. (Hint: Apply a unit load
just after the plastic hinge has been created).
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e) Introduce a plastic hinge at the critical section and calculate the bending moment
distribution for additional loading. Determine how much additional loading the
frame can take before the second hinge is created. What is the total load at this
stage. Compare the results with those of the mechanism analysis.
Given: The integration of two moment diagrams.
a
c
M
∫
M M
dx
2
0 7 L
5
1
−
ab
1
c
- L
0.7L
b
0.7L
M1
1 4 L
EI
12
2
12
f)Use the computer program USFOS to calculate the load as a function of horizontal
displacement. Assume initially thatV2 HP and increase the load step-wise
until a plastic mechanism has been reached. Scale the applied load such that the
reference load, Pref, (to be given in the input line NODELOAD) is 0.10 times the
calculated critical load. In this way the expected collapse load factor should be 10,
i.e. Pcr = 10 x Pref. Indicate, specifically, when the hinges are formed. (L = 12m).
g) Compare the results of the analysis in part (f) with those of analytical calculations.
What are the major reasons for discrepancies between analytical and numerical
results. Explain what happens when the external loads are removed (unloaded). Is
the frame stress free?
h) Repeat USFOS analysis for VHP , andH0 : VP . How is the sequence
of plastic hinge formation in these cases?
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