Determine the modules of resilience of aluminum allow with yield strength of 40000 psi
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Q: A batch of casted mild steel has a modulus of elasticity of 200 GPa and a yield strength of 250 MPa.…
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Q: A sheet of aluminum is stretched in the xy-plane. If the strains in the sheet are ϵx = 0.3 x10-3 and…
A: Given: x-direction strain = 0.3 x 10-3 y-direction strain = 0.25 x 10-3 Modulus of elasticity = 110…
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A: Given:- The length of the one side of the cross-section= 50 mm The value of the tensile load = 60 kN…
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Q: Tie bars of 12 mm diameter is to be provided in the concrete pavement slab. The working tensile…
A: Given data- dia of tie bars=12 mmtensile stress=230 MPajoint gap between slab=10 mm
Q: The compound bar, composed ot the three segments shown, is initially stress-free. Compute the stress…
A: We know that the thermal stress in bars develop when the compound bar has both fixed ends and can't…
Q: Problem The compound shaft is subjected to the torque as shown in the figure. Find the required…
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Q: The composite bar shown is rigidly attached to the two supports. The left portion of the bar is…
A: Given data:
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Q: Concrete is strongest when subjected to: OA Tension O B) Bending O9 Torsion
A: 1. The concrete is strongest when subjected to:
Q: composite bar shown. Determine the maximum stress in (a) the aluminum, (b) the steel, A steel bar…
A: Composite beam is as shown
Q: A 250 mm long rod with a 15×30 mm cross section consists of a brass layer joined by welding in the…
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Q: 7 Has the same composition at any point? a. Isotropic b. Composite c. Prismatic d. Homogeneous 8.…
A: Ki
Q: The composite bar as shown is placed between two rigid walls. At 30°C, there is a gap of 0.2mm…
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Q: Estimate the tensile strength required to prevent cracking in a concrete-like material that is cast…
A: Given data:
Q: F = 520 kN Determine the stress in each aluminum and steel bars after 0.2 mm F = 520 kN is applied.…
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Q: A steel bar (Es = 210 GPa) and an aluminum bar (Ea = 70 GPa) are bonded together to form the…
A: Draw the figure. It is required to determine the ratio of modulus of elasticity of steel and…
Q: A composite beam is made of two brass [E = 105 GPa] plates bonded to an aluminum [E = 63 GPa] bar,…
A: Given data Eb = 105 GPA EAl = 63 GPA M= 1525 Nm = 1525 × 103 N-mm
Q: Which not significant tests perform on Engineering Materials? compression tension chemical analysis…
A: Answer is Chemical analysis because Their is no significant result on this Test . Every time we get…
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A: We know Y and Z axis is lateral axis , and X is longitudinal axis according to me , Also in this…
Q: A compasite assembly consisting of a steel (G - 60 GPa) core (2) connected by rigid plates at the…
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Q: As shown in the figure below, a bronze bar is affixed between a steel bar and an aluminum bar. Axial…
A: Given, Allowable stress :- σst = 150MPa σbr= 130MPa σal = 90MPa Est= 200Gpa Eal= 70Gpa Ebr= 83Gpa
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A: Solution-
Q: Q2) Layers of Brass, Steel and Aluminum are bonded together and formed section shown below.…
A:
Q: The assembly shown consists of an aluminum shell (E, = 70 GPa, aą = 23.6 × 106PC) fully bonded to a…
A: We will use equillibrium and Axial deformation equation.
Q: A 3003-H14 aluminum alloy rod with 0.5 in. diameter is subjected to a 2000- lb tensile load.…
A: The given data is shown below:
Q: Q2) Layers of Brass, Steel and Aluminum are bonded together and formed section shown below.…
A: Given data: Es=200 Gpa, Eb=105 Gpa, Ea=70 Gpa,
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A: In this question, as the temperature changes, the steel rod will have some strain and thermal…
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A: It is given that :
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A: Data Given: Dimensions of tie = 10" × 10"No. of steel bars = 8Bar type = #8 rebarSteel grade = 60 ∴…
Q: For the composite block shown, determine (a) the value of h if the portion of the load carried by…
A:
Q: A 3003-H14 aluminum alloy rod with 15 mm diameter is subjected to a 9-kNtensile load. Calculate the…
A: Given data: D=15 mm T=9 KN C=9 KN E=70 GPa poisson's ratio=0.33
Q: egates is 38 mm, and the required strength is 30 MPa after 7- naterial types and the assumptions you…
A: GIVEN STRENGTH OF CONCRETE=30 MPa SIZE OF AGGREGATE=38mm
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A: calculate the maximum service stress (in MPa)
Determine the modules of resilience of aluminum allow with yield strength of
40000 psi
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- The frame of a space shuttle type vehicle must have a high yield strength and high stillness, and the most important design factor is weight. Of all the materials presented in this chapter, what material might be the most suitable for the frame of a space shuttle? Assume that there will be both tensile and compressive stresses. For a space shuttle, cost is not a limiting factor. (a) You can eliminate entire classes of materials from consideration with a brief statement about their unsuitability. (b) What material has the highest specific yield strength? Give the yield strength, specific gravity, specific yield strength, elastic modulus, and specific elastic modulus for this material. (c) What material has the highest specific elastic modulus? Give the yield strength, specific gravity, specific yield strength, elastic modulus, and specific elastic modulus for this material. (d) Compare the materials with the highest specific yield strength and highest specific elastic modulus for suitability in the space shuttle frame. (C) Discuss the suitability of the top-rated material for this design from the viewpoint of the ability to produce a frame.A sheet of aluminum is stretched in the xy-plane. If the strains in the sheet are ϵx = 0.3 x10-3 and ϵy = 0.25 x10-3, compute σx and σy. Use E = 110 GPa and v = 0.35.A flat bar of aluminum alloy 25 mm wide and 5 mm thick is placed between two steel bars each 25 mm wide and 10 mm thick to form a composite bar 25 mm x 25 mm as shown. The three bars are fastened together at their ends when the temperature is 15℃. Find the stress in each of the materials when the temperature of the whole assembly is raised to 55 ℃.Steel: Es = 200 GPa; Coefficient of expansion = 1.2x10^-5/℃.Aluminum: Eal = 200/3 GPa; Coefficient of expansion = 2.3x10-5/℃.