Strain rosette shown in the figure was used to obtain normal strain data at a point on the free s...
The strain rosette shown in the figure was used to obtain normal strain data at a point on the free surface of a machine component. Determine the principle stress op -148 MPa 95.8 MPa 118.7 MPa 233.4 MPa 38.7 MPa The strain rosette shown in the figure was used to obtain normal strain data at a point on the free surface of a machine component. Determine the principle stress op -148 MPa 95.8 MPa 118.7 MPa 233.4 MPa 38.7 MPa
Problem 14.044 The strain rosette shown in the figure was used to obtain normal strain data at a point on the free surface of a machine part. The rosette measures: 900 HE; Eb -350 με; Ec-1420 με; v-0.14. (a) Determine the strain components εχ,ey, and Yxy at the point. (b) Determine the principal strains (p1> Ep2) and the maximum in-plane shear strain Yip at the point. c) Determine the angle e, counterclockwise is positive, clockwise is negative), and then draw...
The strain rosette shown was used to obtain normal strain data at a point on the free surface of a machine component. Given the values εa= -185 με, εb= -150 με, εc= 55 με, E = 10,800 ksi, and v = 0.33, determine (a) the stress components σx, σy, and τxy at the point. (b) the principal stresses and the maximum in-plane shear stress at the point; on paper, show these stresses on an appropriate sketch that indicates the orientation...
The strain rosette shown in the figure was used to obtain the following normal strain data at a point on the free surface of a machine part: εa = -1420 με, εb = -900 με, and εc = -240 με. Poisson’s ratio for the material is ν = 0.33. Determine the strain component εx at the point. -887 με -1420 με -995 με -1501 με -1191 με which of these answers b с .09 .09 X a
Will rate. P13.067 The strain rosette shown was used to obtain normal strain data at a point on the free surface of a machine component. Given the values Ea = eb -165 ?? , ec- 130 ?? , E = 10,200 ksi, and v = 0.33, determine -170 ?? , (a) the stress components Ox , ? ? , and Txy at the point (b) the principal stresses and the maximum in-plane shear stress at the point; on paper, show...
The strain rosette shown in the figure was used to obtain the following normal strain data at a point on the free surface of a machine part: Ea = 640 pe Eb = -1600 ue Ec = -1255 ue 45° 45° Calculate the strain components on the machine part at this point. Ex = με με Ey = Yxy = i i urad
Chapter 13, Reserve Problem 118 The strain rosette shown in the figure was used to obtain the following normal strain data at a point on the free surface of a machine part: Ea -1420 HE Еь — 100 Ec-1710 IE b 450 45 X Calculate the strain components on the machine part at this point. Ey με |urad
Asap 1. The bracket is made of steel (Young's modulus 200 GPa; Poisson's ratio 0.3). When the force P is applied to the bracket, the gages in the strain rosette at point A have the following readings: E.-60 μ . Ep 135 μ l, and E.-264 μ (a) Determine the shear strain at point A. (b) Determine the orientation of the principal plane, the in-plane principal strains, the maximum in-plane shear strain, and the average in-plane normal strain. Determine the...
For a strain rosette with @1 = 0°, 02 = 45°, 03 = 135° as shown, the measured strains are € 1 = 300 um/m, £2 = 100 um/m, 3 = 10 um/m. Determine the shear stress if E = 70 GPa and D = 0.25.Enter your answer in MPa up to the first decimal place 1 www.ameswab.info
Question 2 The cylindrical pressure veese shown in the figure has an inside diameter of 910 mm and a al thickness of 10 mm. The cylinder is made of an aluminum alloy that has an elastic modulus of E = 70 GPa and a shear modulus of G = 27.0 GPa mounted on the exterior surface of the cylinder at right angles to each other. The angle θ is 28°. If the pressure in the vessel is 1.69 MPa. determine:...