HEAT+MASS TRANSFER (LL)-W/ACCESS
6th Edition
ISBN: 9781265879631
Author: CENGEL
Publisher: MCG CUSTOM
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A carbon steel ball with 27.00-mm diameter is pressed together with an aluminum ball
with a 36.00-mm diameter by a force of 11.00 N. Determine the maximum shear
stress and the depth at which it will occur for the aluminum ball. Assume the figure
given below, which is based on a typical Poisson's ratio of 0.3, is applicable to estimate
the depth at which the maximum shear stress occurs for these materials.
1.0
0.8
Ratio of stress to Pma
9 0.6
στ
24
0.4
Tmax
0.2
0
0.5a
a
1.5a
Z
2a
2.5a
За
Distance from contact surface
The maximum shear stress is determined to be
MPa.
The depth in the aluminum ball at which the maximum shear stress will occur is
determined to be [
mm.
Show all work please
Draw top, side, front view With pen(cil) and paper
Multi view drawing and handwriting all of it
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- A wheel of diameter 150.0 mm and width 37.00 mm carrying a load 2.200 kN rolls on a flat rail. Take the wheel material as steel and the rail material as cast iron. Assume the figure given, which is based on a Poisson's ratio of 0.3, is applicable to estimate the depth at which the maximum shear stress occurs for these materials. At this critical depth, calculate the Hertzian stresses σr, σy, σz, and Tmax for the wheel. 1.0 0.8 0, т Ratio of stress to Pmax 0.4 0.6 90 69 0.2 0.5b b 1.5b Tmax 2b Distance from contact surface The Hertizian stresses are as follows: 02 = or = -23.8 psi for the wheel =| necessary.) σy for the wheel =| MPa σz for the wheel = MPa V4 for the wheel = | MPa 2.5b ཡི 3b MPa (Include a minus sign ifarrow_forwardOnly question 3arrow_forwardOnly question 2arrow_forward
- Solve for the support reactions at A and B. C 3 kN/m B -1.5 m- -1.5 m 1.5 m- 1.5 m-arrow_forward4. Solve for the support reactions at A and B. W1 600 lb/ft W2 150 lb/ft A Barrow_forwardIn cold isostatic pressing, the mold is most typically made of which one of the following: thermosetting polymer tool steel sheet metal textile rubberarrow_forward
- The coefficient of friction between the part and the tool in cold working tends to be: lower higher no different relative to its value in hot workingarrow_forwardThe force F={25i−45j+15k}F={25i−45j+15k} lblb acts at the end A of the pipe assembly shown in (Figure 1). Determine the magnitude of the component F1 which acts along the member AB. Determine the magnitude of the component F2 which acts perpendicular to the AB.arrow_forwardHi can you please help me with the attached question?arrow_forward
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