Stress Analysis 3. A 20-mm diameter rod made ofa ductile material with a yield strength of...
air under a pressure to 16 MPa. The tank has a 180 mm inner diameter and a 12 mm wall thickness (40 points) A torque of magnitude T-24kN-m is applied to the end of a tank containing 3. Part A. For a point on the outer surface of the tank, determine: a. the maximum normal stress b. the maximum shearing stress Part B. As a result of several tensile tests, it has been found that the tensile yield strength for...
. Estimate the torque on a 15 mm diameter steel shaft when yielding begins using (a) the Tresca and (b) the von Mises theory. The yield strength of the steel is 140 MPa.
A low carbon steel shaft is designed to have a diameter of 30 mm. It is to be subjected to an axial load (P-30 kN), a moment (M-200 N-m), and a torque (T-300 N-m). Assume the yield stress for the steel is (280 MPa), the Poisson's ratio is (v= 0.29), and the safety factor is (1-1). Calculate the margin of safety using the following failure theories. a.) Rankine Criteria (Maximum Principal Stress) b.) Tresca Criteria (Maximum Shear Stress) c.) Saint...
For the following bracket of ductile material, Rod . Draw the shear force and bending moment diagrams for the rod of length Find the maximum bending moment and the location of it. . Determine the bending stresses the points A and B . Determine the torsional stresses (Ttorsion) the points A and B .Show the 3-D stress tensors@ the points A and B (* You can ignore the transverse shear stresses for the stress tensors.) . Determine the principal stresses...
(30 pts) Shaft Yielding. A solid circular shaft with 125 mm diameter rotates in bearings at 30 rad/s. Transverse loadings produce a maximum bending moment of 10 kNm. (For 3. e meaning of transverse loading see the image below.) Given the tensile yield strength th of the shaft material as 300 MPa, find the power this shaft can transmit according to the Tresca and von Mises yield criteria. Hint: You may need to use Engineer's Theory of Bending (ETB) to...
A cantilever rod is loaded as shown in the Figure \(1(b)\). If the tensile yieldstrength of the material is \(300 \mathrm{MPa}\), determine the rod diameter usingi. \(\quad\) Maximum principal stress theoryii. \(\quad\) Maximum shear stress theoryiii. Maximum distortion energy theoryq1.docx
An overhanging steel beam is used to carry a uniformly distributed load over a 2-metre length as shown. The yield stress of steel is ơyield-350 MPa. Check if the cross section of the beam at section a-a is safe against yielding, (a) using the maximum distortion energy criterion (Von Mises criterion) (b) using the maximum shear stress criterion (Tresca) 15 mm w-12 kN/m 15 mm 120 mm 2000 mm 15 mm 3000 mm 3000 mm 6000 mm 60 mm An...
A) A ductile hot-rolled steel bar has yield strength in tension and compression of 400 MPa Define Maximum shear stress, and Maximum normal stress for the following stress distribution: ?,-200 Mpa and ?,-200 Mpa, and Txysl 00 Mpa (All the other stresses are set to zero). safety factor using distortion energy theory, Maximum Normal stress theory, and maximum shear stress theory B) For the above material and stress distribution, what is the
Answer is 2.84 Question 1 A ships solid circular drive shaft is of diameter, d-54 mm, and is subjected to a torque, T steel with a yield stress of 350 MPa. 1700 Nm and an axial force, F-127 kN as shown. The shaft is made of Determine the Factor of Safety (accurate to two decimal places), according to Tresca's maximum shear stress failure theory. (Hint: Based on the state of stress in a surface element, consider Mohr's circle to get...
the hollow tube down has an outside diameter of 45 mm and an inside diameter of 40 mm. the tube is made of an aluminum alloy with a minimum yield strength of 280 MPa. the bending load is F =1.5 kN, the axial load is P = 10kN and the twisting moment is T = 70 N-m. Determine the factor of safety based on the stress at point A using (a) the maximum shear stress theory and (b) the distortion...