Explanation Given information: A wide-flange of A992 steel acts as a column. The length of the column is L = 12 ft . The both ends of the column are fixed. The axial load applied on the column is P = 40 kip . Calculation: Refer the Appendix B. Choose the wide flange section W6 × 9 . Show the geometric properties of W6 × 9 section as follows: The area ( A ) of the W6 × 9 section is 2.68 in . 2 The least radius of gyration ( r y ) of the W6 × 9 section is 0.905 in . Show the expression for ( K L r ) c as follows: ( K L r ) c = 2 π 2 E σ Y (1) Here, K is the effective length factor, L is the length of the column, and ( r ) is the radius of gyration, E is the Young’s modulus, and σ Y is the yield stress of the material. Consider the Young’s modulus of the steel is E = 29 × 10 3 ksi . Consider the yield stress of the steel is σ Y = 50 ksi . Substitute 29 × 10 3 ksi for E and 36 ksi for σ Y in Equation (3). ( K L r ) c = 2 π 2 × 29 × 10 3 50 = 58 , 000 π 2 50 = 106.998 ≈ 107 Calculate the value of ( K L r y ) as follows: The ends of the column is fixed, thus, the value of K is 0.5. Substitute 0.5 for K, 12 ft for L, and 0.905 in . for r y . ( K L r y ) = ( 0.5 × 12 ft × 12 in . 1 ft 0.905 in . ) = 79.56 Compare the value of ( K L r y ) and ( K L r ) c and get the result as follows: 79.56 < 107 ( K L r y ) < ( K L r ) c Thus, the column is an intermediate column

10th Edition

ISBN: 9780134321158

Author: HIBBELER

Publisher: PEARSON

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Buckling of columns

The column is described as a vertical member of the structure that carries an axial compressive load, and buckling is a lateral deformation of the column under the application of load.

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Chapter 13.6, Problem 13.86P

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To find: the lightest-weight wide flange A992 steel column to support a load of 40 kip.

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Chapter 13.6, Problem 13.85P

Chapter 13.6, Problem 13.87P

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Chapter 13 Solutions

Mechanics of Materials

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the lightest-weight wide flange A992 steel column to support a load of 40 kip .

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Chapter 13 Solutions