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Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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Question
Please complete parts 1-3.
![GIVEN:
Hydraulic actuator clevis pin connection as shown below in the conceptual engineering sketch. The
actuator will deliver 50,000 lbf to the given clip assembly.
Goode
DIA.
#F
J
PART C
A
-
口
PAT B
-
B
+
PART A
HINT: SUGGESTION MAKE
PIN FROM STAINLESS
STEEL AND
FROM CARBON STEEL
CLIPS
FIND:
1. Calculate the bearing stresses on all the respective surfaces (i.e., mechanical components) that make
up the clip assembly (i.e., parts A, B, and C). Size the respective part dimensions to ensure adequate
design margin (F.S.).
2. Calculate the pin shear stress and size the pin dimensions (i.e., diameter of part C) to ensure adequate
F.S. Only provide your final set of calculations
3. Calculate the maximum bending and shear stresses in the support-beam clip (Part A) for your part
dimensions. Only provide your final set of calculations.](https://content.bartleby.com/qna-images/question/073654f7-f6ae-4088-9c12-c0cdcc78aade/ac862260-79d3-47be-ba64-d581a18dc8fb/j0syf3w_thumbnail.png)
Transcribed Image Text:GIVEN:
Hydraulic actuator clevis pin connection as shown below in the conceptual engineering sketch. The
actuator will deliver 50,000 lbf to the given clip assembly.
Goode
DIA.
#F
J
PART C
A
-
口
PAT B
-
B
+
PART A
HINT: SUGGESTION MAKE
PIN FROM STAINLESS
STEEL AND
FROM CARBON STEEL
CLIPS
FIND:
1. Calculate the bearing stresses on all the respective surfaces (i.e., mechanical components) that make
up the clip assembly (i.e., parts A, B, and C). Size the respective part dimensions to ensure adequate
design margin (F.S.).
2. Calculate the pin shear stress and size the pin dimensions (i.e., diameter of part C) to ensure adequate
F.S. Only provide your final set of calculations
3. Calculate the maximum bending and shear stresses in the support-beam clip (Part A) for your part
dimensions. Only provide your final set of calculations.
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