Diameter of shaft is 17 mm
The stress components at point B
Diameter of shaft is 17 mm The stress components at point B 600 N 50 mm...
Q.3. A hollow steel shaft ACB of outside diameter 50 mm and inside diameter 40 mm is fixed at ends A and B. Horizontal forces P are applied at the ends of a vertical arm that is welded to the shaft at point C. The allowable shear stress in the shaft is tall 45 MPa. Determine the maximum allowable force P 200 mm 200 mm 600 mm 400 mm
It is required to design a square key for fixing gear on a shaft of 50 mm diameter. 14 KW power at 317 rps is transmitted from the shaft to the gear. Determine the applied Torque in N-m It is required to design a key for fixing gear on a shaft of 50 mm diameter. It is required that 15 kW power at 720 rpm is to be transmitted from the shaft to the gear. The yield strength of the...
The solid aluminum shaft has a diameter of 58 mm. Set T1-2060 N-m 300 N·m·ノ 600 N m 900 N·m Determine the absolute maximum shear stress in the shaft.
The solid aluminum shaft has a diameter of 50 mm and an
allowable shear stress of 60MPa. Determine the largest torque T1
that can be applied to the shaft if it is also subjected to other
torsional loadings.Also, determine the maximum shear stress within
regions CD and DE. I do not have access to G and E for aluminum, so
for now, assume G =28 GPa and E = 69 GPa.
Please show all your work.
P1.022 The handle shown in the figure is attached to a 50-mm-diameter shaft with a square shear key. The forces applied to the lever are P-1,200 N. If the average shear stress in the key must not exceed 125 MPa, determine the minimum dimension a that must be used if the key is 35 mm long. The overall length of the handle is = 0.70 m. ta - Shear Key Handle Shaft Answer: a
Q.2) A 60-mm diameter solid shaft with a 100-mm diameter collar A is subjected to an axial load of 50 kN and a torque of 20 kN-m as shown below. Determine at the contact between the collar A and the support, (a) the average shear stress and (b) the bearing stress. 2.5 mm 601mm 100 mm 50 kN 2.5 mm 15 mm
The 50-mm-diameter solid shaft is made of A-36 steel and is subjected to the distributed and concentrated torsional loadings shown where T = 230 N-m. 2 kNm 600 Nm B 0.8 m 0.6 m Part A Determine the angle of twist at the free end A of the shaft due to these loadings. Use Gst = 75.0 GPa Express your answer to three significant figures and include appropriate units. μΑ ? O= Value Units
5. A 38-mm-diameter solid steel shaft, 2 m long, is subjected to a torque of 600 N.m, as shown below. The steel is AISI 1020 hot-rolled. Calculate a) The maximum torsional shear stress b) The angle of twist, ?, in degrees, ifG2 79.3 x 10"MPas 79.3 x 10, N/m2 Te TL Recall radian 57.3 32 JG
Problem 2: A solid steel shaft ABC of 50 mm diameter is driven at A by a motor that transmits 50 kW to the shaft at 40 rpm. The gears at B and C drive require 35 and 15 kW, respectively. Calculate the maximum shear stress in the shaft and the angle of twist between A and C. G 80 GPa 10 marks Motor 50 mm
4. The composite bar consists of a 20-mm diameter steel segment AB and 50-mm diameter brass end segments DA and CB. Find the stress on each segment due to the applied loads. E of steel is 200 GPa and E of brass is 101 GPa. 250mm 250mm 250mm 50mm 50mm 20mm 75kN 100KN steel brass brass DA 75KN 100KN B