please refer to the images below for the problem A plate with a width of 300mm and thickness of 20mm is to be connected to two plates of thesame width with half the thickness by 25 mm diameter rivets. As shown. The rivet holes have adiameter 3.2 mm larger than the rivet diameter. The plate is A36 steel with yield strength Fy=248 MPa. The rivets are A 502 Grade 2 hot driven rivets with allowable shear stress of 150 MPa.O300 mmOOP/2+1/21/2*P/2P/2 a. Determine the maximum load that can be applied to the connection without exceedingthe allowable tensile stress in the plates.b. Determine the maximum load that can be applied to the connection without exceedingthe allowable shear stress in the rivets.c. Determine the maximum load that can be applied to the connection without exceedingthe allowable bearing stress between the plates and the rivets.

Given: Width of plate w=300mm t=20 mm rivet diameter d=25 mm hole diameter dh=28.2 mm

A plate with a width of 300mm and thickness of 20mm is to be connected to two plates of the same width with half the thickness by 25 mm diameter rivets. As shown. The rivet holes have a diameter 3.2 mm larger than the rivet diameter. The plate is A36 steel with yield strength Fy = 248 MPa. The rivets are A 502 Grade 2 hot driven rivets with allowable shear stress of 150 MPa. 0 O 300 m O P/2 +/2 +/2 P/2 P/2

A plate with a width of 300mm and thickness of 20mm is to be connected to two plates of the same width with half the thickness by 25 mm diameter rivets. As shown. The rivet holes have a diameter 3.2 mm larger than the rivet diameter. The plate is A36 steel with yield strength Fy = 248 MPa. The rivets are A 502 Grade 2 hot driven rivets with allowable shear stress of 150 MPa. 0 O 300 m O P/2 +/2 +/2 P/2 P/2

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

See similar textbooks

Similar questions

A double-riveted double-strap butt joint is used to connect two plates; eachof 12 mm thickness, by means of 16 mm diameter rivets having a pitch of 48mm. The rivets and plates are made of steel. The permissible stresses in tension,shear and compression are 80, 60 and 120 N/mm2 respectively. Determine theefficiency of the joint.
Calculate the average shear stress in a thin-walled tube having a circular cross section of mean radius ?? and thickness ?, which is subjected to a torque T
Two pieces of steel are connected by a pin screw 0.27 in a diameter. Determine the maximum T-force in lb that this system can withstand if the screw has a shear capacity of 26.5 ksi and a safety factor of 1.6 is desired.
The cylinder of a hydraulic ram supported at the open end is 200 mm internal diameter and is required to sustain an internal pressure of 25 MN/m2.Calculate the necessary thickness of the wall if the maximum shearing stress is limited to 55 MN/m2.Allowing for the effect of the longitudinal stress caused by the pressure on the end of the cylinder, calculate the increase in diameter due to the application of the 25 MN/m2 pressure. Take E= 214 GN/m2 and υ = 0. 28
The allowable stresses for the splice shown are the following: 150 MPa for shear of rivets, 1.35Fy for bearing,0.60Fy for tension and Fy = 250 MPa. Note: rivet holes are 2 mm bigger than the rivet diameter and the middleplate is 20 mm thick. Find the diameter of the rivets so that the joint capacity due to shear approximately equal to the bearingcapacity.a. 25.4 mm c. 28.65 mmb. 30.79 mm d. 36.97 mm Find the maximum safe value of P without exceeding the allowable shearing stressa. 773.6 kN c. 938.3 kNb. 878.1 kN d. 848.2 kN Find the maximum safe value of P without exceeding the allowable tensile stress.a. 579.3 kN c. 716.1 kNb. 495.5 kN d. 692.5 kN
Determine the changes in length, breadth and thickness of a steel bar which is 4 m long, 30 mm wide and 20 mm thick and is subjected to an axial pull of 30 kN in the directions of its length. Take Young’s Modulus as 70 GPa and Poisson’s ratio as 0.3.
A typical stainless steel cylindrical vessel is shown. The inside diameter of the tank is 48.0 in. and the wall thickness is 0.75 in. The tank is pressurized to 1.40 ksi. Determine the absolute maximum shear stress on the inner surface of the cylinder wall.
A flanged bolt coupling consists of 20-mm aluminum bolts evenly spaced around a bolt circle 30 cm diameter and 12-mm steel bolts on a concentric bolt circle 20 cm in diameter. The allowable shearing stresses are 42 MPa in the aluminum and 62 MPa in the steel. What should be the minimum number of aluminum bolts if there are four steel bolts and the power applied is 760 kW at 600 rpm? Use Gal = 28 GPa and Gst = 83 GPa.
In an industrial machine, two shafts have to be connected by using a muff coupling. The shaft rotates at a speed of 679 rpm and transmits a power of 5 kW. If the maximum torque exceeds the mean torque by 23%. Take the value of allowable shear stress as 71 MPa. Find the value of the following i) Torque transmitted in N-m ii) Maximum torque transmitted in N-m iii) Diameter of the shaft in mm.
Can someone please explain the step-by-step process of this. Thank you so much! The d = 12-mm-diameter solid rod passes through a D = 17-mm-diameter hole in the support plate. When a load P is applied to the rod, the rod head rests on the support plate. The support plate has a thickness of b = 13 mm. The rod head has a diameter of a = 24 mm, and the head has a thickness of t = 9 mm. The shear stress in the rod head cannot exceed 130 MPa, the punching shear stress in the support plate cannot exceed 85 MPa, and the bearing stress between the rod head and the support plate cannot exceed 130 MPa. Determine the maximum value of Pmax that can be supported by the structure.
The riveted lap connection shown consists of two(2) – PL 12 mm × 280 mm. 1. If allowable shearing stress in 20mm rivets is 186 MPa, find the maximum allowable force P that can be applied a. 233.734 kN b. 251.813 kN c. 283.406 kN d. 245.916 kN 2. If allowable bearing stress in holes is 1.2Fu where Fu is the ultimate strength of the plate and which is equal to 400 MPa, find the maximum allowable force P that can be applied neglecting effect of eccentricity. a. 563.3 kN b. 460.8 kN c. 683. 6 kN d. 405.9 kN 3. If allowable yielding of gross area is Fy/1.67, where Fy is the yield strength of the plate and which is equal to 250 MPa, find the maximum allowable force P that can be applied neglecting effect of eccentricity. a. 534 kN b. 560 kN c. 446 kN d. 503 kN 4. If diameter of hole equals diameter of rivet, what is the net area of edge-3-4-edge in square…
Two pipes were connected by a flanged bolt coupling. The material properties are as follows: For outer bolts, 12 pieces, 16 mm diameter, on a mean radius of 150 mm, G = 28 GPa. For the inner bolts, 8 pieces, 12 mm diameter, on a mean radius of 100 mm, G = 20 GPa. Determine the total torque of the system if the shearing stress is limited to 30 MPa in the bolts. (Draw also the FBD) with complete solution