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Lecture 11 – Equilibrium of beams
Instructor: Prof. Marcial Gonzalez
Spring, 2020ME 323 – Mechanics of Materials
Reading assignment: 5.1—5.3
News: __
Last modified: 2/7/20 8:57:25 AM
Exam 1- Wednesday February 12th , 8:00-10:00 p.m., room LYNN 1136
(please arrive 15 minutes before the exam and bring a picture ID)
- Formula sheet will be provided (and uploaded to Blackboard during the weekend)
- Those of you who require extra accommodation please inform me before Friday 7th, 9:30 a.m.
- Start working on the lecture book!
Announcements
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https://www.purdue.edu/freeform/me323/
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Beam theory (@ ME 323)- Geometry of the solid body:
straight, slender member with constant cross sectionthat is designed to supporttransverse loads.
- Kinematic assumptions: Bernoulli-Euler Beam Theory (Lecture 15)Timoshenko Beam Theory, etc.
- Material behavior: isotropic linear elastic material; small deformations.
- Equilibrium:1) relate stress distribution (normal and shear stress) with
internal resultants (only shear and bending moment)
2) find deformed configuration
Equilibrium of beams
Longitudinal Planeof Symmetry
Longitudinal Axis
J. Bernoulli L. EulerS.P. Timoshenko
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Equilibrium – Free body diagrams- Types of beams
Equilibrium of beams
Simply supported beam Cantilever beam
Overhanging beam
All configurations are statically determinate
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Equilibrium – Free body diagrams- Types of beams
Equilibrium of beams
Two-spanned continuous beam
Propped cantilever beam
All configurations are statically indeterminate
Q: How can we solve forequilibrium in this case?
A: We use the displacement at thesupports as additional information!
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Equilibrium – Free body diagrams- Stress & Internal resultants
Equilibrium of beams
Free body diagram
Internal resultants at cross section C
Distribution of stresses and Internal resultants at cross section C
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Equilibrium – Free body diagrams- Stress & Internal resultants
Equilibrium of beams
Distribution of stresses and Internal resultants at cross section C
Internal resultants at cross section C
Transverse shear force:
Bending moment:
Sign Convention
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Example 19:Determine expressions for and
Reactions:
Shear and bending diagrams
Sign Convention
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Equilibrium relationships- Shear force and bending
moments diagrams
Equilibrium of beams
Change in shear force from x1 to x2 is equal to the area under the load curve from 1 to 2
Change in bending moment from x1 to x2 is equal to the area under shear force curve from 1 to 2
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Sign Convention
Example 19 (cont.):Draw shear force and bending moment diagrams
Shear and bending diagrams
Equilibrium relationships- Sign convention!
Equilibrium of beams
These are all positive external loads and couples
Note: become familiar with sign convention for external loads and for internal reactions.11
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Any questions?
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Equilibrium of beams
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