Please complete parts 1-3. GIVEN:Hydraulic actuator clevis pin connection as shown below in the conceptual engineering sketch. Theactuator will deliver 50,000 lbf to the given clip assembly.GoodeDIA.#FJPART CA-口PAT B-B+PART AHINT: SUGGESTION MAKEPIN FROM STAINLESSSTEEL ANDFROM CARBON STEELCLIPSFIND:1. Calculate the bearing stresses on all the respective surfaces (i.e., mechanical components) that makeup the clip assembly (i.e., parts A, B, and C). Size the respective part dimensions to ensure adequatedesign margin (F.S.).2. Calculate the pin shear stress and size the pin dimensions (i.e., diameter of part C) to ensure adequateF.S. Only provide your final set of calculations3. Calculate the maximum bending and shear stresses in the support-beam clip (Part A) for your partdimensions. Only provide your final set of calculations.

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Answered: GIVEN: Hydraulic actuator clevis pin…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Q1: Design and draw a cast iron flange coupling for a mild steel shaft transmitting 80 kW at 220 rpm with the following specifications: Allowable shear stress in the shaft = 400 MPa Permissible angle of twist < 1° in a length of 20 diameters Allowable shear stress in the coupling bolts 30 MPa Rigidity modulus of shaft materials = 85 GPa Allowable shear stress for hub material = 15 MPa You may adopt, width of key = 25 mm, thickness of key = 14 mm You may also consider that the shaft and key are made of the same material. Four number of bolts are to be used in the coupling. Find out the diameter of the shaft required and main dimensions of the flanges and the key. Adopt suitable dimensions. Draw a neat sketch for the flange coupling with the designed dimensions.
In a thrust bearing, the external and the internal diameters of the contacting surfaces are. 19 mm and 200 mm respectively. The total axial load is 80 kN and the intensity of pressure is 350 kN/m?. The shaftrtates at 400 rpm. Taking the coeffic. : of fricieơn as 0.Q6 calculate the power lost fi overcoming the frP. Con. Also, find the number of collars required for the bearing. rrs
Required information A 24-mm-diameter uniform steel shaft is 600 mm long between bearings. Take the value of acceleration due to gravity g to be 9.81 m/s², the value of y for carbon steel to be 76.5 × 103 N-m-3, and the value of Eto be 207 × 10⁹ N/m². NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. What is the critical speed of a half-size model of the original shaft? The critical speed of a half-size model of the original shaft is rad/s.
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TOPIC: TORSION I. Write ALWAYSS TRUE ih the Atate ment ia tre for all 2f not , iá not alway pituationg. Write FALSE and atate whip otatement the e true. 3, The ahear flow im a thin-walled fube increases with in creased applied torque. - bolt coupling 4. For concentíc bolts in a the ratio Ahear Atrain oto the bolt R to that of the" inner bolta for the some bobt area and' modielus oo Hgídity. flanged m Atrain ,y r botta in egual to the diamete on the oriter

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