Calculating Deflections of I-Beams with Varying Loads and Supports

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SUMMARY

This discussion focuses on calculating vertical deflections of I-Beams under varying loads and supports, specifically using S and W beam shapes such as S10x35, S15x50, S18x70, and W12x40. The beams are pinned at both ends and subjected to loads ranging from 120k to 260k. Participants emphasize the importance of understanding web buckling and shear in addition to bending, and recommend consulting the Steel Construction Manual by AISC for detailed guidance. Safety precautions are highlighted due to the risks involved in testing these setups.

PREREQUISITES
  • Understanding of strength of materials
  • Familiarity with web buckling and shear calculations
  • Knowledge of I-Beam specifications and properties
  • Experience with mechanics of materials
NEXT STEPS
  • Study the Steel Construction Manual by AISC for comprehensive beam design principles
  • Learn about web buckling and shear analysis techniques
  • Research specific deflection formulas for uniform beams on simple supports
  • Explore safety protocols for testing structural setups
USEFUL FOR

Mechanical engineers, structural engineers, and students in engineering disciplines focusing on beam design and analysis will benefit from this discussion.

PTW
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My objective is to be able to calculate only vertical deflection of I-Beams (i.e. knowing which formula to use).

Constants:
Using a pair of I-Beams running parallel to each other with a single load being applied from directly above. The load sits on a steel plate across both Beams that are 4" apart. The Beams are pinned at each end with the single load centered half way (i.e. 12' beams with load applied at 6').
Variables:
The only two shapes of beams being used are S, and occasionally W. The most popular models being S10x35, S15x50, S18x70, and possibly a W12x40.
Beams will have a minimum rating of 50ksi (A992 or A572)
Beam lengths can vary from 8' long to 20'
Total loads vary from 120k to 260k (for the two beams to carry).

Thank you!

 

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Get a copy of Steel Construction Manual, by AISC. You need a solid background in strength of materials in order to understand it.

For the loading you show, you need to check for web buckling and shear in addition to bending. There is no one single simple formula. You need to do it right, or find somebody who knows how to do it right.

And do not stand near that setup when testing. If something let's loose, bad things can happen very fast.
 
Thread closed temporarily for Moderation...

EDIT -- Thread re-opened after a Mentor discussion about safety issues.

@PTW -- your Profile page shows that you have a BSME and are working on your MSME. Can you say what courses you have taken that should help you to make this kind of calculation? Thanks. :smile:

PTW Profile Page said:
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Last edited:
You may want to look at this summary too.

http://ruina.mae.cornell.edu/Courses/ME4735-2012/Rand4770Vibrations/BeamFormulas.pdf
 
Dale said:
You may want to look at this summary too.

http://ruina.mae.cornell.edu/Courses/ME4735-2012/Rand4770Vibrations/BeamFormulas.pdf
Thank you, Dale.
 
@PTW If you have completed a BSME as Berkeman indicates, surely you took a mechanics of materials course (not to mention a machine design course) in which you would have learned how to calculate the deflections of a uniform beam on simple supports. Is there something unusual about this case?
 
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