The shaft shown in the figure below and rotating at a speed of 1 radian / sec transmits 9 kW of power from the gear at the B point to the pulley at the D point. Manufactured from cold drawn AISI 1040...

The shaft shown in the figure below and rotating at a speed of 1 radian / sec transmits 9 kW of power<br>from the gear at the B point to the pulley at the D point. Manufactured from cold drawn AISI 1040<br>steel, the shaft is machined to the given dimensions and bedded from A and C points. The highest<br>working temperature of the spindle is 50 ° C.<br>At point D; Since (d2 / d3 = 1.1) and (r /d = 0.1), determine the diameter d3 of the shaft using<br>Goodman's theory. (kb = kc = kf = 1, q = 0.8 and qs = 0.9)<br>200 mm<br>140 mm<br>60 mm<br>F1= 5F<br>Fa<br>Kasnak<br>160<br>Ry<br>F2 = F<br>Dig!!<br>Ray<br>Ray<br>

Extracted text: The shaft shown in the figure below and rotating at a speed of 1 radian / sec transmits 9 kW of power from the gear at the B point to the pulley at the D point. Manufactured from cold drawn AISI 1040 steel, the shaft is machined to the given dimensions and bedded from A and C points. The highest working temperature of the spindle is 50 ° C. At point D; Since (d2 / d3 = 1.1) and (r /d = 0.1), determine the diameter d3 of the shaft using Goodman's theory. (kb = kc = kf = 1, q = 0.8 and qs = 0.9) 200 mm 140 mm 60 mm F1= 5F Fa Kasnak 160 Ry F2 = F Dig!! Ray Ray

Jun 11, 2022

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The shaft shown in the figure below and rotating at a speed of 1 radian / sec transmits 9 kW of power from the gear at the B point to the pulley at the D point. Manufactured from cold drawn AISI 1040...

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