The resolved shear stress acting on the ( 1 1 2 ) | 1 1 2...

A point in body is in a state of plane stress. The applied direct stress on...

A point in body is in a state of plane stress. The applied direct stress on the face, with normal parallel to the X axis, is 65 MPa with an unknown applied shear stress on the same face. NB - Tensile direct stresses are +ve, Compressive direct stresses are -ve. The maximum in plane shear stress is 111 MPa. The direct stress, on the plane corresponding to maximum shear stress, is 28 MPa. You must use a diagram to illustrate...

A single grain (crystal) of face-centered cubic copper lies completely across a copper wire, 0.15-inch diameter,...

A single grain (crystal) of face-centered cubic copper lies completely across a copper wire, 0.15-inch diameter, which is being pulled in tension axially. The axial direction of the wire is in the [112] direction of the crystal. The critical shear stress required to produce slip on the [011](1 1 1) slip system in a copper crystal is 1 MPa. What axial load must be applied to the wire to produce slip in the [011] direction on the (1 1 1)...

Question 1: (a) A perfect crystal of copper is tensile tested. The crystal is oriented so...

Question 1: (a) A perfect crystal of copper is tensile tested. The crystal is oriented so that the direction perpendicular to its slip plane is at 28° relative to the tensile direction. Consider three possible slip directions (relative to the tensile direction) of 81°, 72°, and 62.5°. Prove which of these is most favored. (b) For this favored direction, calculate the minimum shear stress required to initiate slip. Assume that this copper crystal plastically deforms beginning at a tensile stress...

Determine the maximum shear stress (in MPa, using 2 decimal places) for a beam with the...

Determine the maximum shear stress (in MPa, using 2 decimal places) for a beam with the following data: Beam is 8 m in length (simply supported) Has an applied uniform distributed load of 39 kN/m Rectangular cross section rectangular with a base of 97 mm and a height of 235 mm

Which of the following is the slip system for the face-centered cubic crystal structure? A. {100}<110>...

Which of the following is the slip system for the face-centered cubic crystal structure? A. {100}<110> B. {110}<111> C. {100}<010> D. {111}<110> To easily activate the motion of dislocations in the (111)[1 1 0] slip system in a single crystal face-centered cubic metal, the crystal should be oriented in such a way that A. (111) is parallel to the external force B. (111) is perpendicular to the external force C. (111) is parallel to the external force and [1 1...

True false: 1) When subjected to bending, a beam only develops normal stress in tension and...

True false: 1) When subjected to bending, a beam only develops normal stress in tension and compression 2)the shear flow is defined as an average force per unit length for each cross-section. 3)due to bending shear flow develops only along the beam length. 4)) shear center is defined as the point through which force can be applied without causing torsion Fill in the blank: the shear stress induced by bending in a beam is ............ Solve the question problem: A...

Fill in the blanks: 1) the stress developed in a cylindrical pressure vessel along the longitudinal...

Fill in the blanks: 1) the stress developed in a cylindrical pressure vessel along the longitudinal axis is........ 2) the stress developed in a cylindrical pressure vessel along the longitudinal axis is........ 3) To analyze the stress at any point of any component or structure one should consider..... True- false 1) the stress components (i.e normal stress and shear stress) that we determine using formulas developed in previous chapters are independent of the coordinate system. 2)normal stress is one coordinate...

The state of stress at a point in a member is shown on the element. Suppose...

The state of stress at a point in a member is shown on the element. Suppose that σxσx = -60 MPaMPa , σyσy = -100 MPaMPa , τxyτxy = -27 MPaMPa . 1. Determine the normal stress component acting on the plane AB. σx′ 2. Determine the shear stress component acting on the plane AB. τx′y′

A differential stress element has the following set of applied stresses: σx=790 psi, σy=240 psi, τxy=530...

A differential stress element has the following set of applied stresses: σx=790 psi, σy=240 psi, τxy=530 psi Need to draw and find the following: 1) draw the stress element showing the applied stresses 2) find the principal stresses and maximum shear stresses analytically and show it on the stress element.

1-which one does not correspond to mechanism strengthening? a-alloying or dopping with impurities b-grain-size reduction c-grain...

1-which one does not correspond to mechanism strengthening? a-alloying or dopping with impurities b-grain-size reduction c-grain growth d-strain hardening 2-in polycrystals, the grains with the lowest resolved shear stress always yields firts. true or false 3-resolved shear stress is the result of the application of simple shear stress to a piece of material. true or false 4-decrease on strain hardening? a-percent enlogation b-elastic modulus c-yield strenght d-hardness 5-which term is different from other options? a-strain hardeninh b-dislocation hardening c-cold working...