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Beam Deflections March 21, 2012 Alisa Baker Jeff Furman Kimberly Phongprateep Anton Volosciuc.

Published byJustin Morris Lester Modified over 8 years ago

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Presentation on theme: "Beam Deflections March 21, 2012 Alisa Baker Jeff Furman Kimberly Phongprateep Anton Volosciuc."— Presentation transcript:

1 Beam Deflections March 21, 2012 Alisa Baker Jeff Furman Kimberly Phongprateep Anton Volosciuc

2 Not beam reflections… But beam deflections…

3 Beam Failures

4 Galileo Galilei Astronomer, Physicist (1564-1642) Cantilevered beam F L Torque (moment) = FL Leonardo da Vinci Painter, Sculptor, Architect, Musician, Scientist, Mathematician, Engineer, Inventor, Anatomist, Geologist, Cartographer, Botanist, Writer (1452-1519)

5 Boundary Conditions Cantilevered beam Mixed (fixed-simple) Simple supported

6 Loading and Span Uniform loading Non uniform loading Point loading Span = distance between supports

7 Simple Load Beam Given as weight at position Beam a L

8 Common Material Properties Steel Wood E = modulus of elasticity = 30 x 10 6 psi E = 1.3 x 10 6 psi

9 Properties of the shape of the beam I = Second Moment of inertia of a beam cross section about a definite axis, perpendicular to bending plane Simple case– rectangular cross section: h b axis b h

10 Beams Bend & the Applied Load Based on beam properties – Stiffness (E, modulus of elasticity) Unit stress = force/area I beam compression tension Moment Force

11 Force, Stress, and Strain Force – Tension is a pulling force – Compression is a squeezing force – Together, you get shear Stress – force per unit area that the force acts upon – Both the bending moment and shear force causes stresses in the beam Strain – change in length of a stressed structural element divided by the original length of the unstressed element

12 Load, Shear, and Moment Load = F(x) = mg g = 9.81m/s 2 Shear = V(a) = F(x)dx, function of position positive shear Moment = M(a) = V(x)dx, function of position x x V M x L F(0)F(L)

13 Moment & Deflection θ(a)= M(x)dx θ

14 How far will the bench bend? Approximate weight: 75kg Length of bench: 2m Height of bench: 101.6mm Strength of bench: 1.3 x 10 6 psi Mr. Mosh sits on a bench

15 Analysis Mosh way Step 1 Define the load Step 2 Integrate the load to find shear Step 3 Integrate the shear to find the moment Step 4 Integrate the moment to find the deflection Easy way F = weight force, in Newtons L = length of beam, in meters E = modulus of elasticity, in N/mm 4 I = moment of inertia, in mm 4

16 Question? Just one.

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