A thin cylinder of 100 mm internal diameter and 5 mm thickness is subjected to an internal pressure of 10 MPa and a torque of 1000 N.m. Draw a stress element showing the initial stresses. Calculate the principal stresses and the maximum shear stress.
Q: A. For a hollow steel tube with an inside diameter of 120 mm and outside diameter of 138, Detennine…
A: Given The outside diameter of hollow steel tube is D=138 mm. The inside diameter of tube is d=120…
Q: A shaft 30 mm diameter is transmitting power at a maximum shear stress of 80 MPa. If a pulley is…
A:
Q: A steel tube of 300 mm external diameter is to be shrunk on to another steel tube of 90 mm internal…
A: Given data: External diameter, d3 = 300 mm, r3 = 150 mm Internal diameter, d1 = 90 mm, r1 = 45 mm…
Q: 2. A cylindrical steel pressure vessel 400 mm in diameter with a wall thickness of 20 mm, is…
A: Given data: Diameter of the cylindrical pressure, D=400mm Thickness of the wall, t=20mm Internal…
Q: A solid disc rotating with maximum velocity V and having Poisson's ratio is u, then the maximum…
A: A solid disc rotating with maximum velocity v,then maximum tangential , radial stress develops(c) At…
Q: A stepped steel shaft is fixed to a wall at one end and subjected to torsion and axial loading as…
A: From above diagram we can se between A and BTrosional load is 3T and axial load is P ,Shear stress,…
Q: A hollow cylinder of external diameter 50 mm and internal diameter 30 mm is subjected to tensile…
A:
Q: A 6" diameter pulley attached to a 1" diameter shaft of 2" length is supporting a load of 2000 lb.…
A: Consider below figure for the given question: We are given, Load = P = 2000 lb Diameter of pulley =…
Q: A cylindrical steel pressure vessel 400 mm in diameter with a subjected to an internal pressure of…
A: Givendia=400mmthickness t=20mmInternal pressure P=4.5MN/m2
Q: A uniform shaft of diameter 30 mm is subject to a 60 N of tangential force. Calculate the shear…
A: Given data: The diameter of the shaft is D = 30 mm. The tangential force acting on the shaft is F =…
Q: A 75mm shaft is subjected to 5KN-m torque. Find the stress developed in MPa.
A: Dear student, there are multiple question and we are suppose to solve only one question. Also in…
Q: A solid shaft of diameter 30 mm is fixed at one end. It is subjected to a tensile force of 10 kN and…
A: Data given - D = 30 mm = 0.03 m Tensile force Ft = 100 kN Torque T = 60 Nm
Q: A wooden bar is subjected to a tensile stress of 5 MPa. What will be the values of normal and shear…
A: Given data: The tensile stress in wooden bar is σ = 5 MPa. The angle between the section and the…
Q: Develop the formulas for the maximum radial and tangential stresses in a thick-walled cylinder due…
A: Internal pressure only w.k.t Tangential stress ot = Piri2-Poro2-ri2ro2 (po-pi) /r2ro2-ri2 —1…
Q: Q2. Two 35 mm shafts are connected by a flanged coupling The flanges are fitted with 6 bolts on 125…
A:
Q: Figure. Calculate the maximum axial stress of the shaft if the average punching shear stress in the…
A: Given: The average punching shear stress =100 MPa The average bearing stress = 125 MPa The diameter…
Q: " A thick steel cylinder which has an inside diameter of 1m is subjected to an internal pressure of…
A:
Q: 3. An element in a strained body is subjected to a tensile stress of 100 MPa and a shear stress of…
A: When an amount of force act on an object, then the force has the tendency to change the shape of the…
Q: A pipe has an outside diameter of 0.8 inches and inside diameter of 0.19 inches. A force of 105 lbs…
A: Given Outside diameter, d2 = 0.8 in Inside diameter, d2 = 0.19 in…
Q: 3. For the state of stress shown below, calculate the principal stresses and maximum shear stress.
A: σx = 90 Mpa σy = -60 Mpa Txy = 20 Mpa
Q: A round solid bar has a diameter of 30mm. A tensile force of 120kN is applied at the centroid of…
A: Calculated stress in the bar and sketch the stress distribution through its thickness.
Q: a solid rod with a circular cross-secton is subject to a torque of 253 N.m. if diameter of the rod…
A:
Q: A hollow tubular component is made of Steel having a Young's modulus of 205 GPa and yield strength…
A: Given Data⇒ Tensile load (F)=38 KN External diameter of the hollow tubular component is d2=45 mm…
Q: A thin cylinder of 100 mm internal diameter and 5 mm thickness is subjected to an internal pressure…
A: Introduction: Internal pressure causes a hoop and longitudinal tension in a thin-walled tube or…
Q: The internal and external diameter of a thick hollow cylinder are 105 mm and 145 mm respectively. It…
A: According to Lame's equation - σ = Bx2-AGiven -σ = 120 Nmm2 at x = 52.5 mm σ = 40 Nmm2 at x = 72.5…
Q: A torque and two forces seen in the figure are applied. the diameter is 65mm. Determine the…
A:
Q: A steel and aluminum shafts with rigidity of (Gs = 77 GPa) and (Ga = 27 GPa) respectively. As shown…
A: The problem represents shearing of a composite shaft. The following diagram shows the dimensions of…
Q: Find the principal normal stresses and their directions that will occur in case of stress in the…
A:
Q: Problem 1: During its operation, the drill shown below is jammed in the wall subjecting it to 20 N.m…
A:
Q: A solid circular shaft of diameter 100 mm is subjected to an axial stress of 50 MPa. It is further…
A: Given, Diameter of shaft = d = 100 mm Axial stress = σx = 50 MPa = 50 N/mm2 Torque = T = 10 kNm = 10…
Q: A steel rod of 25 mm diameter is fitted inside a brass tube of 25 mm internal diameter and 375 mm…
A:
Q: The principal stresses at a critical point in plane stress are o and 0.250. The yield stress for the…
A:
Q: A shaft 80 mm diameter transmits the power at maximum shear stress of 63MPa. Find the length of a…
A: Given details: d=80 mmζmax=63 MPawkey=20 mmζkey=42 MPa Formula used:…
Q: The state of stress shown below is from the surface of a bar under axial and torsion loading.…
A: Given data: The value of stress in x-direction is, σx=60 MPa. The value of stress in y-direction…
Q: . The solid rod shown below has a diameter of 25 mm. Calculate the stresses that act at points A and…
A: For the given loading diagrams, Calculate the moment of inertia, Z=π64d4Z=π64254Z=19174.76 mm4…
Q: Calculate the compressive stress in a 10.0 mm square rod loaded with 2250 N of force distributed…
A: Given DataF=2250Nb=10mm
Q: 1. Can you treat this cylinder as Thin-Walled Cylinder? Prove that? 2. Calculate the tangential and…
A: Stress: Stress is nothing but force per unit area. It is represented by σ & the SI unit of…
Q: a) A steam engine cylinder has an effective diameter of 350 mm and the maximum steam pressure acting…
A: solving the part (a)
Q: A shaft drives a gear set that is transmitting 5 hp at 1750 rpm. The diameter of the shaft is 0.75…
A:
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 2 images
- A brass plate with a modulus of elastici ty E = 16 X 106 psi and Poisson’s ratio a = 0.34 is loaded in biaxial stress by normal stresses r and cry. (sec figure). A strain gage is bonded to the plate at an angle 4 = 350 If the stress o is 10,700 psi and the strain means used by the gageise = 390 X 106.whatisthcmax- imum in-plane shear stress (Tr, ),. and shear strain (>‘ ).? What is the maximum shear strain (y ) in the x-: plane? What is the maximum shear strain (y ).. in the y-r plane?An element on the top surface of the fuel tanker in Problem 7.2-1 is in biaxial stress and is subjected to stresses a = -48 MPa and ay = 19 MPa, as shown in the figure. Using Mohr’s circle, determine the following. (a) The stresses acting on an clement oriented at a counterclockwise angle ?? = 25° from the x axis. (b) The maximum shear stresses and associated normal stresses. Show all results on sketches of properly oriented elements.A fire extinguisher tank is designed for an internal pressure of 825 psi. The tank has an outer diameter of 4.5 in. and thickness of O.OS in. Calculate the longitudinal stress, the circumferential stress, and the maximum shear stresses (out-of-plane and in-plane) at the outer surface of the tank.
- The stresses on an element are sx= 1000 Psi. sy= 500 psi, and txy= 350 psi. Find the stresses acting on an element oriented at an angle 0 = 250. Show these stresses on the rotated element.-26 A rectangular plate of dimensions 125 mm × 75 mm is subjected to tensile stress sy= 67 kPa and compressive stress a. If it is known that the normal stress along the diagonal t—t is ??t= -6.57 kPa, find stress ??y on element A. a‘7.3-11 The stresses on an element are sx= -300 psi and sy= 600 psi. Find the maximum shear stresses on the element and show them on a sketch of a properly oriented clement.
- The stresses acting on element A in the web of a train rail are found to be 40 M Pa tension in the horizontal direction and 160 MPa, compression in the vertical direct ion. Also, shear stresses of magnitude 54 MPa act in the directions shown (see the figure b for Problem 7.2-5). Determine the principal stresses and show them on a sketch of a properly oriented element.A prismatic bar with a length L = 3 ft and cross-sectional area A = 8 in2 is compressed by an axial centroidal load P = 10 kips. Determine the complete state of stress acting on an inclined section pq that is cut through the bar at an angle W = 35", and show the stresses on a properly oriented stress element.An element on the top surface of the fuel tanker in Problem 7.2-1 is in biaxial .is in the and is subjected to stresses a, = 6250 psi and a. = -1750 psi, as shown in the figure. Using Mohr s circle, determine the following: (a) The stresses acting on an element oriented at a counterclockwise angle ? = 550 from the x axis. (b) The maximum shear stresses and associated norm al stresses. Show all results on sketches of properly oriented elements.
- At a point on the web of a girder on an overhead bridge crane in a manufacturing facility, the stresses arc known to be x = —4300 psi, a = 1700 psi, and r = 3100 psi (the sign convention for these stresses is shown in Fig, 7-1). A stress clement located at the same point in the structure (but oriented at a counterclockwise angle 0, with respect to the _y axis) is subjected to the stresses shown in the figure {b, r», and 2100 psi). Assuming that the angle 8Xis between zero and 90°, calculate the normal stress trA, the shear stress ta, and the angle Bv-4. - An element in plane stress is subjected to stresses ??x= 105 MPa, ??y= 75 MPa, and sxy= 25 MPa (see the figure for Problem 7.3-1). Determine the principal stresses and show them on a sketch of a properly oriented element.The hollow drill pipe for an oil well (sec figure) is 6,2 in. in outer diameter and 0.75 in. in thickness. Just above the bit, the compressive force in the pipe (due to the weight of the pipe) is 62 kips and the torque (due to drilling) is 185 kip-in. Determine the maximum tensile, compressive, and shear stresses in the drill pipe.