Homework Answers
the
maximum load P=1413.70 N applied on piston so that circumferential
stress in cylinder not exceed 5Mpa.
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Each piston has a radius of 45 mm and the cylinder has a wall thickness of...
The cylindrical pressure vessel has an inner radius of 1.25 m and a wall thickness of...
The cylindrical pressure vessel has an inner radius of 1.25 m
and a wall thickness of 25 mm . It is made from steel plates that
are welded along the 45∘ seam. The vessel is subjected to an
internal pressure of 7 MPa . (Figure 1)
Part A
Determine the normal stress component along this seam.
Express your answer to three significant figures and include the
appropriate units.
Part B
Determine the shear stress component along this seam.
Express your...
Problem #2: (10 points) Consider a closed, thin-walled, pressurized cylinder of inside radius r, wall thickness...
Problem #2: (10 points) Consider a closed, thin-walled, pressurized cylinder of inside radius r, wall thickness t, and length L. The cylinder is subjected to an internal pressure p. The cylinder is also subjected to equal and opposite end torques T, as shown in Figure 1. At any point in the side wall of the cylinder, a two-dimensional coordinate system is established such that x,-axis is in the axial direction of the cylinder and the Xz-axis is in the circumferential...
MEE2001/2015 Q5. A thin walled steel cylinder with 10 mm wall thickness and internal diameter of 200 mm (Fig. Q5) is subjected to an internal pressure, p. The steel used for the cylinder has a yie...
MEE2001/2015 Q5. A thin walled steel cylinder with 10 mm wall thickness and internal diameter of 200 mm (Fig. Q5) is subjected to an internal pressure, p. The steel used for the cylinder has a yield stress of 240 MPa. +F 200 mm Fig. Q5 (a) If a tensile axial force of 1MN is applied to the end plate, show that the maximum internal pressure that can be applied before the cylinder yields according to the Tresca criterion is 16.2...
An AISI 1030 cold-drawn steel tube has an OD = 45 mm and wall thickness 5...
An AISI 1030 cold-drawn steel tube has an OD = 45 mm and wall thickness 5 mm, and the pipe is subjected to internal pressure only. What maximum internal pressure can this tube withstand if the largest principal normal stress is not to exceed 95 percent of the minimum yield strength of the material? Draw a 3D Mohr’s circle for the tube
Round tube made from A-36 steel OD & Wall thickness are provided in the question Use...
Round tube made from A-36 steel OD & Wall thickness are provided in the question Use the following values: OD = 32 mm, wall thickness = 3 mm, L = 575 mm, P = 750 N. Determine the following. Give magnitudes only and do NOT include negative signs Notice the required units and provide at least 3 significant figures. Assume no yielding occurs. Maximum normal stress = Number MPa Maximum deflection (assume no yielding) = Number mm Is the "No...
2. (15 points) A pressure cylinder with an outer diameter do = 200 mm and wall...
2. (15 points) A pressure cylinder with an outer diameter do = 200 mm and wall thickness t = 6 min carries an internal pressure of 4 MPa. Determine the maximum tangential, radial, longitudinal stresses in the cylinder. What is the maximum shear stress? [Ans: ơttinax-64.73 MPa, ơrr, max-一4.00 MPa, dzina.-30.36 MPa, and Tmax-34.37 MPa.
The steel pipe AB has a 106-mm outer diameter and a 6-mm wall thickness. Knowing that...
The steel pipe AB has a 106-mm outer diameter and a 6-mm wall thickness. Knowing that arm CD is rigidly attached to the pipe, determine the principal stresses and the maximum shearing stress at point K 53 mm 6 mm 191 mm 9.2 kN 152 mm MPa MPa MPa ? max ?min
An I-beam has a flange width b = 200 mm , height h = 200 mm , web thickness tw = 8 mm , and flange thickness tf = 12 mm...
An I-beam has a flange width b = 200 mm , height h = 200 mm ,
web thickness tw = 8 mm , and flange thickness
tf = 12 mm . Use the following steps to calculate the
shear stress at a point 65 mm above the neutral axis.
Part A - Moment of inertia
The shear formula includes the moment of inertia of the whole
cross section, I, about the neutral axis. Calculate the moment of
inertia.
Express...
Problem 1.44 Review Part A All pins are in double shear, each has a diameter of...
Problem 1.44 Review Part A All pins are in double shear, each has a diameter of 13 mm, and the average shear stress in each pin is not to exceed 95 MPa. (Figure 1) Determine the maximum magnitude P of the loads that the beam can support Express your answer to three significant figures and include appropriate units P 2810 kN Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining Figure 1 of 1 < Return to...
please make your answers clear and organized . Problem 8.5-3 A cylindrical pressure vessel having radius...
please make your answers clear and organized .
Problem 8.5-3 A cylindrical pressure vessel having radius r-300 mm and wall thickness t 15 mm is subjected to internal pressure p 2.5 MPa. In addition, a torque T120 kN-m acts at each end of the cylinder (see figure) (a) Determine the maximum tensile stress ?mix and the maximum in-plane shear stress Tmax in the wall of the cylinder torque T? 30 MPa and 76 MPa, respectively, what is the minimum required...
The cylindrical pressure vessel has an inner radius of 1.25 m
and a wall thickness of 25 mm . It is made from steel plates that
are welded along the 45∘ seam. The vessel is subjected to an
internal pressure of 7 MPa . (Figure 1)
Part A
Determine the normal stress component along this seam.
Express your answer to three significant figures and include the
appropriate units.
Part B
Determine the shear stress component along this seam.
Express your...
Problem #2: (10 points) Consider a closed, thin-walled, pressurized cylinder of inside radius r, wall thickness t, and length L. The cylinder is subjected to an internal pressure p. The cylinder is also subjected to equal and opposite end torques T, as shown in Figure 1. At any point in the side wall of the cylinder, a two-dimensional coordinate system is established such that x,-axis is in the axial direction of the cylinder and the Xz-axis is in the circumferential...
MEE2001/2015 Q5. A thin walled steel cylinder with 10 mm wall thickness and internal diameter of 200 mm (Fig. Q5) is subjected to an internal pressure, p. The steel used for the cylinder has a yield stress of 240 MPa. +F 200 mm Fig. Q5 (a) If a tensile axial force of 1MN is applied to the end plate, show that the maximum internal pressure that can be applied before the cylinder yields according to the Tresca criterion is 16.2...
Round tube made from A-36 steel OD & Wall thickness are provided in the question Use the following values: OD = 32 mm, wall thickness = 3 mm, L = 575 mm, P = 750 N. Determine the following. Give magnitudes only and do NOT include negative signs Notice the required units and provide at least 3 significant figures. Assume no yielding occurs. Maximum normal stress = Number MPa Maximum deflection (assume no yielding) = Number mm Is the "No...
2. (15 points) A pressure cylinder with an outer diameter do = 200 mm and wall thickness t = 6 min carries an internal pressure of 4 MPa. Determine the maximum tangential, radial, longitudinal stresses in the cylinder. What is the maximum shear stress? [Ans: ơttinax-64.73 MPa, ơrr, max-一4.00 MPa, dzina.-30.36 MPa, and Tmax-34.37 MPa.
The steel pipe AB has a 106-mm outer diameter and a 6-mm wall thickness. Knowing that arm CD is rigidly attached to the pipe, determine the principal stresses and the maximum shearing stress at point K 53 mm 6 mm 191 mm 9.2 kN 152 mm MPa MPa MPa ? max ?min
An I-beam has a flange width b = 200 mm , height h = 200 mm ,
web thickness tw = 8 mm , and flange thickness
tf = 12 mm . Use the following steps to calculate the
shear stress at a point 65 mm above the neutral axis.
Part A - Moment of inertia
The shear formula includes the moment of inertia of the whole
cross section, I, about the neutral axis. Calculate the moment of
inertia.
Express...
Problem 1.44 Review Part A All pins are in double shear, each has a diameter of 13 mm, and the average shear stress in each pin is not to exceed 95 MPa. (Figure 1) Determine the maximum magnitude P of the loads that the beam can support Express your answer to three significant figures and include appropriate units P 2810 kN Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining Figure 1 of 1 < Return to...
please make your answers clear and organized .
Problem 8.5-3 A cylindrical pressure vessel having radius r-300 mm and wall thickness t 15 mm is subjected to internal pressure p 2.5 MPa. In addition, a torque T120 kN-m acts at each end of the cylinder (see figure) (a) Determine the maximum tensile stress ?mix and the maximum in-plane shear stress Tmax in the wall of the cylinder torque T? 30 MPa and 76 MPa, respectively, what is the minimum required...
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