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2. The rod is made of a material having a yield stress oy = 250 MPa....
The pin is made of a material having a failure shear stress of Ttail 120 MPa Part A Determine the minimum required diameter of the pin to the nearest mm. Apply a factor of safety of FS 2.5 against shear failure. 80 KN Tap image to zoom Express your answer as an integer and include the appropriate units d= Value ! Units SubmitRequest Answer
1.7 LIMIT STATE DESIGN 55 1 F1-22. The pin is made of a material having a failure shear stress of Thail = 100 MPa. Determine the minimum required diameter of the pin to the nearest mm. Apply a factor of safety of F.S. = 2.5 against shear failure. 80 KN F1-22
Rod ABC is made of a steel for which the yield strength is oy= 450 MPa and the modulus of elasticity is E-200 GPa. Knowing that a strain energy of 11.2 J must be acquired by the rod as the axial load P is applied, determine the factor of safety of the rod with respect to permanent deformation when a -0.3 m. 18-mm diameter 12-mm diameter The factor of safety of the rod with respect to permanent deformation is
Question A-36 steel pipe with an outer diameter of 100 mm and an inner diameter of 80 mm subjected to loadings shown in Figure 1. The pipe is rigidly fixed at B and P = 150 kN. Given the yield stress, Oy=250 MPa and factor of safety, F.S. = 1.5 is used against yielding on this entire pipe. (a) For the stress state at the surface, construct the Mohr circle and determine: (1) the total stresses at surface of the...
5.3 m 7.5 m B D (1) 60 8 m 3.4 m P The rigid T shape ABD is supported by an elastic rod BC (with a 35 mm diameter). Pin A (30 diameter) is in single shear. mm Double shear pins B and C are 24 mm diameter. Rod BC has a yield stress of 250 MPa and all pins have a ultimate shear stress of 330 MPa. Take P 50 kN and determine: Normal stress in BC 1...
Question A-36 steel pipe with an outer diameter of 100 mm and an inner diameter of 80 mm subjected to loadings shown in Figure 1. The pipe is rigidly fixed at B and P - 150 kN. Given the yield stress, Oy -250 MPa and factor of safety, F.S. - 1.5 is used against yielding on this entire pipe. (a) For the stress state at the surface, construct the Mohr circle and determine: (1) the total stresses at surface of...
The rods AB and CD are made of steel having a failure tensile stress of O fail = 510 MPa. Using a factor of safety of F.S. = 1.75 for tension, determine their smallest diameter so that they can support the load shown. The beam is assumed to be pin connected at A and C. В. D 6 kN 5 kN 4 kN A C 4 2 m ----2m- -3 m -3 m Figure: 07_PROB_076
Figure Q1 The jib crane is pinned at A and supports a chain hoist that can travel along the bottom flange of the a) the force in rod BC b) the minimum diameter of rod BC (to the nearest 5 mm). c) the minimum diameter of pin B (to the nearest 5 mm). The material properties are listed in Table Q2 and use factor of safety of FS-2 (10 marks) beam boist Figure Q2 Table Q2: Material properties (MPa) Shear...
Failure criterion The yield stress of a material is 40 MPa. This material is subjected to the maximum normal stress and the minimum normal stressz--0.350. Determine the magnitude of 01 MPa that will cause yielding according to the maximum shear stress criterion (rounding to two decimal places).
2. If the solid shaft is made from material having an allowable shear stress of Tallowable = 60 MPa, determine the required diameter of the shaft. 15 kN-m 30 kN m 75 kN-m 30 kN-m QUESTION 5 Problem 2: What is the maximum internal torque in the shaft? 45 kN-m 120 kN-m 25 kN-m 75 kN-m N QUESTION 6 Problem 2: What is the minimum diameter of the solid shaft? O 207 mm O 156 mm O 168 mm 132...