As per Hooke\'s law the Shear Stress is directly proportional to of the material
ID: 1338120 • Letter: A
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As per Hooke's law the Shear Stress is directly proportional to of the material Nominal stress is calculated by dividing the load with the of the of the test material Necking of the test specimen starts when it reaches stress-strain diagram Elastic behavior of the material is observed by the of the linear part of the stress strain diagram True value of the strain is calculated based on a given load divided by area of the test specimen The characteristic of the material by which it undergoes inelastic strain at the elastic limit is known as In load -deflection diagram of a test specimen if load is removed at any point the material follow exactly the same curve back to the original path then the material is said to be Aluminum alloys typically do not have clearly definable yield point. However they do have initial linear region with a recognizable and have the values in the range of 10 to 60 Ksi (70-410 MP All forces acting on the body, or component part of the body, must be displayed with a sketch as if correct equilibrium solution is to be obtained with proper sign conventions, reference axis with proper dimensions and shape. In a linearly elastic material when subjected to uniaxial tensile load, the ratio of change is known as Poisson's ratio When a punch A with a force P kips having a diameter [d] makes a hole in a steel plate B having a thickness [t], the shear stress on the plate is given by In the Question 11 above, the compressive stress is given by The Modulus of Rigidity of Copper and copper alloys are in the range of The shear modulus of Rigidity of Aluminum alloys are in the range of The ultimate stress of Aluminum Alloys are in the range of { NB: Refer only Appendices in your text book for Questions 16 to 18}.Explanation / Answer
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