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Chapter 12 – Beam Deflection. Notice how deflection diagram (or elastic curve) is different for each beam. How does the support effect slope and deflection?

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Presentation on theme: "Chapter 12 – Beam Deflection. Notice how deflection diagram (or elastic curve) is different for each beam. How does the support effect slope and deflection?"— Presentation transcript:

1 Chapter 12 – Beam Deflection

2 Notice how deflection diagram (or elastic curve) is different for each beam. How does the support effect slope and deflection? 12.1 The Elastic Curve:

3 The moment diagram and sign can be a great aid in constructing the elastic curve!

4 Zero displacement and zero slope Zero displacement Displacement is max either where slope is zero or at end!!

5 Moment-Curvature Relationship (read 588 – 592): Define x, 

6 Radius of curvature Internal moment Modulus of elasticity Moment of inertia

7 Therefore: EI = Flexural Rigidity assume constant throughout beam length 12.2 – Slope and Displacement by Integration!

8 Or Any of these DE can be used to get  (x). Just integrate and evaluate constants of integration using BC’s. This is called the integration method for getting beam displacement!

9 OR: Careful! Need M(x) for each span (every time eqn for moment changes).

10 Sign convention – All Positive!!

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