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A differential band brake shown in Figure below, uses a woven lining having design values of H=0.3, pmax = 375 kPa, rotational speed 250 r.p.m, width of the band w 60 mm, the angle of wrap 270°, drum radiusr 200 mm. If the dimensions are given as: a = 500 mm, c = 150 mm, and s = 25 mm, determine the following: %3!

A differential band brake shown in Figure below, uses a woven lining having design values of H=0.3, pmax = 375 kPa, rotational speed 250 r.p.m, width of the band w 60 mm, the angle of wrap 270°, drum radiusr 200 mm. If the dimensions are given as: a = 500 mm, c = 150 mm, and s = 25 mm, determine the following: %3!

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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Machine design 

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A differential band brake shown in Figure below, uses a woven lining having design values of H= 0.3, pmax = 375 kPa, rotational speed = 250 r.p.m, width of the band w 60 mm, the angle of wrap o = 270°, drum radius r 200 mm. If the dimensions are given as: a = 500 mm, c = 150 mm, and s = 25 mm, determine the following: |(1) The torque capacity. (2) The actuating force. |(3) The power capacity. (4) The value of dimension s that would be cause the brake to be self-locking. %3D Hint: Pmax F1/wr -Band of width, w Rotation Drum |F2
Transcribed Image Text:A differential band brake shown in Figure below, uses a woven lining having design values of H= 0.3, pmax = 375 kPa, rotational speed = 250 r.p.m, width of the band w 60 mm, the angle of wrap o = 270°, drum radius r 200 mm. If the dimensions are given as: a = 500 mm, c = 150 mm, and s = 25 mm, determine the following: |(1) The torque capacity. (2) The actuating force. |(3) The power capacity. (4) The value of dimension s that would be cause the brake to be self-locking. %3D Hint: Pmax F1/wr -Band of width, w Rotation Drum |F2
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