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Question 13.6: Design of a Disk Brake A disk brake has two pads of included...

Design of a Disk Brake

A disk brake has two pads of included angle \gamma = 60° each, D = 10 in. and d = 5 in. (Figure 13.14). Determine

a. The actuating force required to apply one shoe

b. The torque capacity for both shoes

Design Decision: Sintered metal pads and cast iron disk are used with f = 0.2 and p_{max} = 200 psi.

F13.14
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a. Equation 13.28 may be written in the form

F_{ a }=\int_{d / 2}^{D / 2} \pi p_{\max } d d r=\frac{1}{2} \pi p_{\max } d(D-d)        (13.28)

F_a=\frac{\gamma}{360}\left[\frac{1}{2} \pi p_{\max } d(D-d)\right]            (13.35)

Introducing the given numerical values,

F_a=\frac{60}{360}\left[\frac{1}{2} \pi(200)(5)(10-5)\right]=1309  lb

b. From Equation 13.30, we obtain

T=\frac{1}{4} F_a f(D+d)=F_a f r_{a v g}              (13.30)

\begin{aligned} T &=\frac{1}{4} F_a f(D+d) \\ &=\frac{1}{4}(1309 (0.2)(10+5)=982  lb \cdot in . \end{aligned}

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