b) A cantilever rod is loaded as shown in the Figure 1(b). If the tensile yield strength of the material is 300 MPa, determine the rod diameter using
A cantilever rod is loaded as shown in the Figure \(1(b)\). If the tensile yield
strength of the material is \(300 \mathrm{MPa}\), determine the rod diameter using
i. \(\quad\) Maximum principal stress theory
ii. \(\quad\) Maximum shear stress theory
iii. Maximum distortion energy theory
Homework Answers
As the factor of safety is not particularly mentioned i did't
calculate the values but i provided you each and every formula in
the concept so you can substitute and get the values easily .i hope
the concept is clear to you .and give a thumbs up for this .thank
you
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b) A cantilever rod is loaded as shown in the Figure 1(b). If the tensile yield strength of the material is 300 MPa, determine the rod diameter using
Stress Analysis 3. A 20-mm diameter rod made ofa ductile material with a yield strength of...
Stress Analysis
3. A 20-mm diameter rod made ofa ductile material with a yield strength of 350 MPa is subjected to torque of 100 N.m and a bending moment of 150 N.m. An axial force is then gradually applied. Determine the value of force when the rod begins to yield. Solve the problem two ways using the (a) Tresca theory (Maximum shearing stress theory) and (b) von Mises theory (Maximum distortion energy theory) [12+12 points
3. A 20-mm diameter rod...
3 (15 points) A bent circular cantilever beam of uniform diameter of 25 mm is shown in igure below. The beam is made from a material with elastic modulus is 70 GPa, the tensile strength is 250 M...
3 (15 points) A bent circular cantilever beam of uniform diameter of 25 mm is shown in igure below. The beam is made from a material with elastic modulus is 70 GPa, the tensile strength is 250 MPa, and the ultimate strength is 300 MPa. 250 mm A. 150 mm z Zz. 50N V (z direction) 100 N (a) (5 points) What are the stresses in the beam at point A? (b) (10 points) Based on your calculations in (a),...
A 1-in, constant diameter shaft is loaded with forces at A and B as shown, with...
A 1-in, constant diameter shaft is loaded with forces at A and B as shown, with ground reaction forces at O and C. The shaft also transmits a torque of 1500 lbf in throughout the length of the shaft. The shaft has a tensile yield strength of 130 kpsi. 460 lbf 575 lbf -12 in 18 in 1500 lbf-in А B ° To |--10 in- RO Rc Determine the minimum static factor of safety using the maximum-shear-stress failure theory, The...
A) A ductile hot-rolled steel bar has yield strength in tension and compression of 400 MPa...
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
Problem 10.81 The material shown in the figure below (Figure 1) has a yield strength of...
Problem 10.81 The material shown in the figure below (Figure 1) has a yield strength of Oy = 80 ksi. Figure < 1 of 1 > 12 ksi 10 ksi -20 ksi Part A Determine the factor of safety for this loading against yielding based on the maximum shear stress theory. Express your answer to three significant figures. Y A vec mo? F.S. Submit Request Answer Part B Determine the factor of safety for this loading against yielding based on...
An AISI steel has a yield strength, Sy = 300 Mpa. Plot the failure locus and...
An AISI steel has a yield strength, Sy = 300 Mpa. Plot the failure locus and the load line in the attached diagram. Given that - OA Ox = 210 MPa, Oy = 160 MPa, and Txy -45 MPa Distortion Energy (Von Mise) S Hint: Maximum Shear Stress Oxt Oy OB ОА, Ов + + tzy Failure Theory Diagram 1.jpg Instructions: Download the image (Failure Theory Diagram 1.jpg), complete the d
The cantilever bar in the figure is made from AISI 1018 CD steel and is statically loaded
The cantilever bar in the figure is made from AISI 1018 CD
steel and is statically loaded with Fy = 800 N, and Fx = Fz = 0.
The fillet radius at the wall is 2 mm with theoretical stress
concentrations of 1.5 for bending, 1.2 for axial, and 2.1 for
torsion.Sut = 440 MPa = 64 kpsi, Sy = 370 MPa = 54 kpsi. Analyze the
stress situation in rod AB by obtaining the following
information.a) Determine the precise...
The shaft in the figure below is supported on journal bearings that do not offer any resistance t...
The shaft in the figure below is supported on journal bearings that do not offer any resistance to axial load. The yield strength of the material is o",-300 MPa and the safety factor is FS-2.5 Derive an expression for the components of the stress tensor at a cross section of the shaft Neglect the shear stress due to the transverse shear forces and determine to the nearest millimeter, the smallest diameter of the shaft that will support the loading strength....
Question 9 An AISI steel has a yield strength, Sy = 300 Mpa. Plot the failure...
Question 9 An AISI steel has a yield strength, Sy = 300 Mpa. Plot the failure locus and the load line in the attached diagram. Given that Cx -210 MPa, Ox - 160 MPa, and Txy =-45 MPa Hint: Ox toy 2 04.0 Failure Theory Diagram LIR Instructions: Download the image (Failure Theory Diagram 1.jpg), complete the diagram, and upload the image. Attach File Browse My Computer Moving to another question will save this response. DO До. Distortion Energy (Von...
Determine the required diameter of a steel transmission shaft 10 m in length and of yield...
Determine the required diameter of a steel transmission shaft 10 m in length and of yield strength 350 MPa in order to resist a torque of up to 500 N-m. The shaft is supported by frictionless bearings at its ends. Design the shaft with a factor of safety of 1.5 according to (a) the maximum shear stress theory and (b) the maximum distortion energy theory
Stress Analysis
3. A 20-mm diameter rod made ofa ductile material with a yield strength of 350 MPa is subjected to torque of 100 N.m and a bending moment of 150 N.m. An axial force is then gradually applied. Determine the value of force when the rod begins to yield. Solve the problem two ways using the (a) Tresca theory (Maximum shearing stress theory) and (b) von Mises theory (Maximum distortion energy theory) [12+12 points
3. A 20-mm diameter rod...
3 (15 points) A bent circular cantilever beam of uniform diameter of 25 mm is shown in igure below. The beam is made from a material with elastic modulus is 70 GPa, the tensile strength is 250 MPa, and the ultimate strength is 300 MPa. 250 mm A. 150 mm z Zz. 50N V (z direction) 100 N (a) (5 points) What are the stresses in the beam at point A? (b) (10 points) Based on your calculations in (a),...
A 1-in, constant diameter shaft is loaded with forces at A and B as shown, with ground reaction forces at O and C. The shaft also transmits a torque of 1500 lbf in throughout the length of the shaft. The shaft has a tensile yield strength of 130 kpsi. 460 lbf 575 lbf -12 in 18 in 1500 lbf-in А B ° To |--10 in- RO Rc Determine the minimum static factor of safety using the maximum-shear-stress failure theory, The...
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
Problem 10.81 The material shown in the figure below (Figure 1) has a yield strength of Oy = 80 ksi. Figure < 1 of 1 > 12 ksi 10 ksi -20 ksi Part A Determine the factor of safety for this loading against yielding based on the maximum shear stress theory. Express your answer to three significant figures. Y A vec mo? F.S. Submit Request Answer Part B Determine the factor of safety for this loading against yielding based on...
An AISI steel has a yield strength, Sy = 300 Mpa. Plot the failure locus and the load line in the attached diagram. Given that - OA Ox = 210 MPa, Oy = 160 MPa, and Txy -45 MPa Distortion Energy (Von Mise) S Hint: Maximum Shear Stress Oxt Oy OB ОА, Ов + + tzy Failure Theory Diagram 1.jpg Instructions: Download the image (Failure Theory Diagram 1.jpg), complete the d
The cantilever bar in the figure is made from AISI 1018 CD
steel and is statically loaded with Fy = 800 N, and Fx = Fz = 0.
The fillet radius at the wall is 2 mm with theoretical stress
concentrations of 1.5 for bending, 1.2 for axial, and 2.1 for
torsion.Sut = 440 MPa = 64 kpsi, Sy = 370 MPa = 54 kpsi. Analyze the
stress situation in rod AB by obtaining the following
information.a) Determine the precise...
The shaft in the figure below is supported on journal bearings that do not offer any resistance to axial load. The yield strength of the material is o",-300 MPa and the safety factor is FS-2.5 Derive an expression for the components of the stress tensor at a cross section of the shaft Neglect the shear stress due to the transverse shear forces and determine to the nearest millimeter, the smallest diameter of the shaft that will support the loading strength....
Question 9 An AISI steel has a yield strength, Sy = 300 Mpa. Plot the failure locus and the load line in the attached diagram. Given that Cx -210 MPa, Ox - 160 MPa, and Txy =-45 MPa Hint: Ox toy 2 04.0 Failure Theory Diagram LIR Instructions: Download the image (Failure Theory Diagram 1.jpg), complete the diagram, and upload the image. Attach File Browse My Computer Moving to another question will save this response. DO До. Distortion Energy (Von...
Determine the required diameter of a steel transmission shaft 10 m in length and of yield strength 350 MPa in order to resist a torque of up to 500 N-m. The shaft is supported by frictionless bearings at its ends. Design the shaft with a factor of safety of 1.5 according to (a) the maximum shear stress theory and (b) the maximum distortion energy theory
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