Mechanics of Materials, SI Edition
Mechanics of Materials, SI Edition
9th Edition
ISBN: 9781337093354
Author: Barry J. Goodno, James M. Gere
Publisher: Cengage Learning
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Axial Load
When a bar of the uniform cross-section is acted by a load, such that the load acts along the longitudinal axis of the bar, such kinds of loadings are known as axial loadings. In general terms, a load is an external force acting on a component. An axial …
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Chapter 11, Problem 11.9.7P
To determine

The value of the allowable axial load pressure for the different lengths.

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Answer to Problem 11.9.7P

The value of the allowable axial load pressure for the different lengths is:

    S.No Length of column( ft) Axial load ,Pallow( k )
    1 06 58.8
    2 12 43.0
    3 18 23.1
    4 24 13.0

Explanation of Solution

Given Information:

The outside diameter of the steel pipe column, do =4.5 in.

The thickness of the steel pipe column, t = .237 in.

The value of the young modulus, E = 29000 ksi

The value of maximum stress, sy = 36 ksi

Concept Used:

For pinned end, K=1

Here, r = radius of gyration.

  Lcr= 2 π 2 E σ y Lc=criticallength ofcolumn in ft

  σallow_max=σyn1

Then we try different value of σallow

  A=Pσ allow

Then select the trial column

  n1=NA        if( KLr)>KLcr&n1=53+3( KL r )8( K L c r ) ( ( KL r ) )38 ( K L c r )3if( KLr)KLcrn2=2312         if( KLr)>KLcr&n2=NA          if( KLr)KLcr

  σallow=σy[1 n 1(1 ( KL r ) 2 2 ( K L c r ) 2 )]if( KLr)KLcrσallow=σy[ ( K L c r ) 22 n 2 i ( KL r ) 2]if( KLr)>KLcrPallow=σallow×A

Calculation:

For pinned end, K = 1.

  di=4.52(0.237)=4.026in.A=π4( 4.52 4.0262)=3.1740in.2I=π64( 4.54 4.0264)=7.2326in.4r= 7.2326 3.1740=1.5095in.( L r)max=200Lmax=200×1.5095=301.9in.=25.16ft

Here, r = radius of gyration.

  Lc=1.5095 2 π 2 29000 36=1.5095×126.09=190.33in.=15.86ftFori=1,L1=6ftasL1<Lc

  So,n11=53+3( 6 1.5095 )8( 15.86 1.5095 ) ( 6 1.5095 )38 ( 15.86 1.5095 )3=1.667+.14190.00234=1.806Fori=2,L2=12ft

  AsL2<LcSo,n12=53+3( 12 1.5095 )8( 15.86 1.5095 ) ( 12 1.5095 )38 ( 15.86 1.5095 )3=1.667+.28370.0541=1.896Fori=3,L3=18ft

   As L3>Lcn23=2312=1.917Fori=4,L4=24ftAsL4>Lcn24=2312=1.917

  σallow=σy[1 n 1 i (1 ( K L i r ) 2 2 ( K L c r ) 2 )]ifKLirKLcrthisisusedforL1&L2σallow=σy[ ( K L c r ) 22 n 2 i ( K L i r ) 2]ifKLir>KLcrthisisusedforL3&L4

For L1 = 6 ft.

  σallow=36[11.805(1 ( 6 1.5095 ) 2 2 ( 15.86 1.5095 ) 2 )]=18.517ksiPallow=18.517×3.1740=58.77k=58.8k

For L2 =12 ft

  σallow=36[11.896(1 ( 12 1.5095 ) 2 2 ( 15.86 1.5095 ) 2 )]=13.55ksiPallow=13.55×3.1740=43.0k=43k

For L3 =18 ft.

  σallow=36[ ( 15.86 1.5095 ) 22×1.917 ( 18 1.5095 ) 2]=7.289ksiPallow=7.289×3.1740=23.14k=23.1k

For L4 = 24 ft,

  σallow=36[ ( 15.86 1.5095 ) 22×1.917 ( 24 1.5095 ) 2]=4.10ksiPallow=4.10×3.1740=13.01k=13.0k

Conclusion:

The value of the allowable axial load pressure for the different lengths is:

    S.No Length of column( ft) Axial load ,Pallow( k )
    1 06 328
    2 12 243
    3 18 134
    4 24 75.3

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Chapter 11 Solutions

Mechanics of Materials, SI Edition

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