2. Considering the link BD of above problem is subjected to an axial load of 6...
The beam shown below is subjected to a uniform load of 2 kips/ft, two concentrated transverse loads of 12 kips, and 6 kips, and a tensile axial force of 10 kips. a) Draw the shear and moment diagrams. (8) b) Find the stresses at B. (10) c) Find the maximum shearing stress in the beam. (10) 12 kips 2 k/ft 6 kips 10 kips 4 41 8' A B D E 12" 2" 2 14" B 24 16"
The filleted plate shown in figure 1 below supports an axial load "P" and has a thickness "t". The "hole" and "fillets" are far enough apart from each other so the stress concentration of one does not influence the stress concentration of the other. Use this information and the values given abovethe following figure to answer the following questions. (Assume the plate is made of relatively brittle material.) a.) What is the stress concentration factor Kt for the hole? b.)...
! Required information Part 1 of 2 Link BD consists of a single bar 1 in. wide and in. thick. Each pin has a 3 -in. diameter and P 5 kips. P 10 points 6 in B еВook 12 in Hint Print 30 References Determine the maximum value of the average normal stress in link BD if e 0 The maximum magnitude of the average normal stress is ksi. This stress is in (Click to select)
please draw and solve show every thing details “”
Question 3 128 Marks 2 rectangular beam shown in the figure is subjected to a fluctuating axial force. It fluctuates between 5 kN and 15 kN keeping its direction. The beam is to be machined to the dimensions shown in the figure with a transvers hole of diameter d-14 mm/ Material of the beam is AISI 1040 CD steel (S-590 stress concentration factor as 2.2. K Pa, Sy 490 MPa). Take...
df 1n mon diame ss: F size 0.70 V): A cold drawn C-1025 steel rod of circular cross section is subjected to a variable bending moment of 10,000 in-lb to 17,000 in-lb, as the axial load varies from-2,000 lb to 5,000 lb. The maximum bending moment occurs at the same instant that the axial load is maximum. Determine the required diameter of the rod for a factor of safety N-2.3? The steel rod is connected to the support which causes...
2 A metal tube with dimensions as shown below was subjected to an axial tensile load of 175 N. If the young's modulus the metal is 25,000 MPa, calculate (i) axial stress, (ii) axial strain, and (iii) total axial elongation caused by the given load. 1954 :5 315 30cm 2cm 175N 475 =--== 30cm - 75mm
A rotating shaft is made of AISI 1035 CD steel is subjected to an axial load of 710N, a fluctuating torque load from 60 to 120 N.m, and a completely reversed bending moment of 160N.m. The shaft has a diameter of 30mm, and operates at T=250°C, and has a life reliability of 95%. Note that the fatigue stress-concentration factor for bending Kfb is 1.49 and that for torque Kft is 2.65..1. Draw the Yield (Langer) line 2. Modified Goodman line. 3. Calculate...
3. The column shown below is subjected to axial load and bending moment causing bending about an axis parallel to that of the rows of bars. What moment would cause the column to fail if the axial load applied simultaneously was 500 kips? Material strengths are fc' = 6000 psi and fy = 60,000 psi. 20" As: 8.0 in2 8.0 in2 Figure: Problem 3
a solid circular shaft of radius a is subjected to the
combined axial load P, bending moment M, and torsional moment T
shown. Assume that M = Pa/2 and T = Pa/2. The axial load is
constant while the moments M and T are completely reversed cyclic
(recall, completely reversed cyclic means having the same amplitude
in positive and negative sense in a cycle). The material of the
shaft has the yield stress of 300 MPa and endurance limit of...
[3]. (3 marks) Figure below shows a bolted joint subjected to an external force P that fluctuates from 0 to 7 kips The steel bolt specification is 5/8"-11 UNC, SAE grade 5 material with rolled threads. The clamped members are steel of length 1.25 in each (with a total length of 2.5 in). Plain wide washers are utilized at both ends of the bolt. [a]. Using the Goodman line, determine the factor of safety guarding against fatigue failure for the...