The figure shows an internal rim-type brake having an inside rim diameter of 11 in and a dimension R of 3.5 in. The shoes have a face width of 1.25 in. Find the braking torque and the maximum pressure for each shoe if the actuating force is 205 Ibf, the drum rotation is counterclockwise, and f= 0.32. 120 120° Pin Pin The maximum pressure on the right-hand shoe PARH is 16.99 psi. The maximum pressure on the left-hand shoe PalH is 100.813 O psi. The torque on the right-hand shoe TRis .056 O kip-in. The torque on the left-hand shoe TL is ..332 kip-in. Total braking torque Ttotal is .3887 O kip-in.

The figure shows an internal rim-type brake having an inside rim diameter of 11in and a dimension R of 3.5 in. The shoes have a face width of 1.25 in. Find the braking torque and the maximum pressure for each shoe if the actuating force is 205 Ibf, the drum rotation is counterclockwise, and f=0.32. The maximum pressure on the right-hand shoe parp is [ 16.99] @ psi. The maximum pressure on the left-hand shoe pa| H is [100.813 | @ psi. The torque on the right-hand shoe Tgis [ .056 | @ kipin. The torque on the left-hand shoe T is [ .332| @ kipin. Total braking torque Tiotal s [-3887] @ Kip-in.

Transcribed Image Text:

The figure shows an internal rim-type brake having an inside rim diameter of 11 in and a dimension R of 3.5 in. The shoes have a face width of 1.25 in. Find the braking torque and the maximum pressure for each shoe if the actuating force is 205 Ibf, the drum rotation is counterclockwise, and f= 0.32. 30 120 120° Pin Pin The maximum pressure on the right-hand shoe PARH is 16.99 psi. The maximum pressure on the left-hand shoe PalH is 100.813 O psi. The torque on the right-hand shoe TRis .056 O kip-in. The torque on the left-hand shoe TL is ..332 kip-in. Total braking torque Ttotal is3887 O kip-in.