A circular beam is loaded as shown in the following figure T

A circular beam is loaded as shown in the following figure. The dimensions a, b and d, the applied forces F_1 and F_2, the reaction force R_0 and moment M_0 at the wall, and the elasticity E, yield strength S_y and ultimate strength S_ut are known values. You are given the moment as a function of distance down the length of the beam to be: M(x) = M_0 degree + R_0 ^1 - F_1 ^1 - F_2 ^1 (Refer to section 4-6 if you have forgotten singularity function notation. Section 4-3 reviews the relation between moment and deflection.) Can you simplify the moment expression, assuming values of x on [0, b] are of interest? Determine the deflection at the end (x = b) of the beam Find the conservative factor of safety for static failure if the beam is made from a brittle material. Assume that bending normal stress at the top fiber of the beam is the stress of concern. Specify which failure criteria you used and why.

Solution

The free-body diagram of the beam’s right segment sectioned through an arbitrarypoint shown in Fig.

a

will be used to write the shear and moment equations of the beam.

*6–4.

Draw the shear and moment diagrams for the canti-lever beam.

2 kN

/

m6 kN

m2 m

A

‚(1)

a

‚(2)

+©

M

=

0;

-

M

-

2(2

-

x

)

c

12 (2

-

x

)

d

-

6

=

0

M

=

{

-

x

2

+

4

x

-

10}kN

#

m

+c©

F

y

=

0;

V

-

2(2

-

x

)

=

0

V

=

{4

-

2

x

} kNThe shear and moment diagrams shown in Figs.

b

and

c

are plotted using Eqs