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Local buckling and section classification

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Presentation on theme: "Local buckling and section classification"— Presentation transcript:

1 Local buckling and section classification
Dr R SENTHIL ASSOCIATE PROFESSOR ANNA UNIVERSITY

2 RECTANGULAR PLATES SUPPORTED ON FOUR SIDES
Nx y z b a A B C D x Buckling of Plate under Uni-axial Compression

3 Buckling Coefficient, k
PLATES WITH OTHER SUPPORT CONDITIONS web (a) (b) (c ) (d) Plate Elements with Different Edge Conditions (e) Rotation of free edge Table 1 Values of k for Different Load and Support Conditions Load Condition Support Condition Buckling Coefficient, k Uniaxial Compressive Stress (x) Hinged-hinged 4.00 Fixed-fixed 6.97 Hinged-free 0.43 Fixed free 1.27 Shear Stress (xy) 5.35 8.99

4 BUCKLING OF ONE SQUARE ELEMENT

5 LONG PLATE ELEMENT= ONE SQUARE ELEMENT

6 LOCAL BUCKLING (a) (b) Local buckling of Compression Members

7 8 times Stronger! K=4.0 K=0.425

8 Full section capacity eroded by local Buckling
M1 M2 Local buckling Vent M=M1 M<M2 Full Section Capacity Full section capacity eroded by local Buckling

9 DESIGN OF PLATE ELEMENTS
Limiting width-thickness ratio to ensure yielding before plate buckling

10 LOCAL BUCKLING In IS:800 (1984) the local buckling is avoided by specifying b/t limits. Hence we don’t consider local buckling explicitly However in IS:800(2007) limit state design, the local buckling would be the pivotal aspect for the design of structural components

11 How codes view steel sections?
Un-stiffened element Stiffened element Section comprising of a stiffened element and two un-stiffened elements Channel

12 How can we get maximum stiffened elements
1. Channel section 2. Channel with a simple lip 3. Channel with compound lip 4. Intermediately stiffened Channel with compound lips

13 UNSTIFFENED OR OUTSTAND ELEMENTS

14 STIFFENED OR INTERNAL ELEMENTS

15 SECTION CLASSIFICATION
Mp Rotation  My y u Slender Semi-compact Compact Plastic Section Classification based on Moment-Rotation Characteristics

16 MP MP My SEMI-COMPACT PLASTIC MP MP My COMPACT SLENDER

17 Sectional Classification for Indian Conditions
Section type Flange criterion (b/T)  Web criterion (d/t)  Slender Semi-compact Compact Plastic >15.75 < <8.92 >126 <82.95 T d B t b = B/2 < < <

18

19 Section classification of Indian standard rolled ‘I’ beams

20 Summary Local buckling concepts which are embedded in the IS:800 for beams have been briefly outlined.

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