Thickness of inner cylinder (ti)=2.5mm
3.5 A compound thin cylinder has a common diameter of 100 mm and the inner cylinder has a thickness of 2,5 mm. The r...
Problem 4 [40 marks] A brass cylinder (E = 75 GPa and v = 0.33) of outer radius 150 mm and inner radius 100 mm is to be press-fit over a steel cylinder (E = 200 GPa and v = 0.28) of outer radius 100.02 mm and inner radius 50 mm. a) Find the interface pressure; [20 marks] Draw the radial and hoop stresses in both cylinders generated due to misfit; [20 marks] c) For Masters Students only: Draw radial...
A compound vessel is obtained by shrinking an external cylinder of internal diameter equal to 200 mm and external diameter equal to 300 mm over a cylinder of internal diameter equal to 150 mm and external nominal diameter equal to 200 mm. Both cylinders are made of steel (E 205 Gpa) and an interference equal to 0.15 mm is used at the mating surface Calculate the radial and circumferential stresses at the inner and outer surfaces of the two cylinders,...
The thin-walled pipe has an Inner diameter of 12 mm and a thickness of 0.6 mm. It is subjected to an internal pressure of 2 MPa and the axial tension and torsional loadings shown in (Figure 1). Part A Determine the principal stresses at a point on the surface of the pipe. Express your answers using three significant figures separated by a comma O AED Ivec ROO? MPа Submit Figure 1 of 1 > < Return to Assignment Provide Feedback
please answer 18.11 and 18.12 18.11 A steel ring with an outside diameter of 150 mm and an inside diameter of 100 mm is shrunk onto another steel ring with an inside diameter of 50 mm. An axial force of 56,54 kN is needed to push the rings apart. Calculate the pressure at the mating surface and the shrinkage allowance given that both rings are 20 mm thick and the coefficient of friction between the mating surfaces is 0,2. Using...
1. (15 points) The thin-walled pipe has an inner diameter of 0.5 in. and a thickness of 0.025 in. If it is subjected to an internal pressure of 200 psi and the axial tension and torsional loadings as shown, determine the state of stress at point A and sketch these stresses on element A. Extra Credit: What is the maximum in-plane shear stress in this element? 00 lb 100 lb 20 lb.ft 20 lb.ft
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.
4.A thin-walled cylindrical column carries a weightless arch and is loaded as shown in Figure 4. The column has an internal diameter of 250 mm with a thickness of 2 mm Given: E-200 GPa and 0.3 The answer to each part of the question is to be used for subsequent parts (a)Determine the stresses on the outer surface of the cylinder at points A and B due to (8 marks) (b) Determine the minimum internal pressure p required if the...
Problem 1. A cylinder subjected to internal pressure p, has an outer diameter of 400 mm and a wall thickness of 20 mm. The cylinder is made of a material with = 60 MPa.m1/2 and contains a radial crack in the longitudinal direction of depth 8 mm. Assuming a design factor na 1.5, determine the pressure which causes uncontrollable crack growth. r: σ ! 1+윽 | . Where, and, are wall's internal and external radii, respectively)
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...
The thin-walled pipe has an inner diameter of 0.5 in and a thickness of 0.025 in. Part A If it is subjected to an internal pressure of 572 psi and the axial tension and torsional loadings shown, determine the principal stress at a point on the surface of the pipe. (Figure 1) Enter your answers numerically separated by a comma. AZO If vec 01,02 = ksi Submit Request Answer Figure < 1 of 1 Provide Feedback 200 lb 200 lb...