The client wishes to save weight in their assembly and has suggested using aluminium for the joining block. Evaluate the suitability of this material from a structural viewpoint, the client has indicated available space is very limited so dimensional changes should be minimal. Advise if aluminium is feasible as an alternative material and justify your answer. Would titanium be a suitable option? The properties of both materials are shown below. Titanium – E 102.81 GPa: v 0.36: shear 44000 MPa: yield 275.6 MPa: tensile 344.5 MPa Aluminium – E 68.9 GPa: v 0.33: shear 25864MPa: yield 275 MPa: tensile 310 MPa

The client wishes to save weight in their assembly and has suggested using aluminium for the joining block. Evaluate the suitability of this material from a structural viewpoint, the client has indicated available space is very limited so dimensional changes should be minimal. Advise if aluminium is feasible as an alternative material and justify your answer. Would titanium be a suitable option? The properties of both materials are shown below. Titanium – E 102.81 GPa: v 0.36: shear 44000 MPa: yield 275.6 MPa: tensile 344.5 MPa Aluminium – E 68.9 GPa: v 0.33: shear 25864MPa: yield 275 MPa: tensile 310 MPa

Welding: Principles and Applications (MindTap Course List)

8th Edition

ISBN:9781305494695

Author:Larry Jeffus

Publisher:Larry Jeffus

Chapter28: Filler Metal Selection

Section: Chapter Questions

Problem 24R: What stainless steel(s) would a. have low creep at high temperatures? b. be used for food service...

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An aluminum rod is to withstand an applied force of 45,000 pounds. To assure sufficient safety, the maximum allowable stress on the rod is limited to 25,000 psi. The rod must be at least 150 in. long but must deform elastically no more than 0.25 in. when the force is applied. Design an appropriate rod.
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What stainless steel(s) would a. have low creep at high temperatures? b. be used for food service equipment?
To manufacture a piston with a circular cross section, an alloy steel bar is required whose length is fixed and has a value of 35 cm and must withstand a compression load of 5.2 tons. For its design, a safety factor of 4/5 is suggested with respect to the yield stress. The shear modulus for that alloy is 80 GPa. 1) Define the Poisson's ratio and calculate its value
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Stuck need help! Problem is attached. please view attachment before answering. Really struggling with this concept. Please show all work so I can better understand ! Thank you so much.