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As a project engineer, you have been tasked to perform a stress analysis of the plane stresses of a stress element from the tie bar of a die casting machine as shown in Figure Q1. 60 MPa 30 MPa 45 MPa

As a project engineer, you have been tasked to perform a stress analysis of the plane stresses of a stress element from the tie bar of a die casting machine as shown in Figure Q1. 60 MPa 30 MPa 45 MPa

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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use angle of 92 please 

As a project engineer, you have been tasked to perform a stress analysis of the plane stresses of a stress element from the tie bar of a die casting machine as shown in Figure Q1. 60 MPa 45 MPa. Figure Q1 By using the stress transformation equations, a. By using the stress transformation equations, identify the state of stress when the element is rotated by an angle counterclockwise, where = 0=92 b. Identify the following stresses and sketch the appropriate stress elements respectively. (1) Principal stresses and principal planes. (ii) Maximum shear stress and the corresponding normal stress 30 MPa
Transcribed Image Text:As a project engineer, you have been tasked to perform a stress analysis of the plane stresses of a stress element from the tie bar of a die casting machine as shown in Figure Q1. 60 MPa 45 MPa. Figure Q1 By using the stress transformation equations, a. By using the stress transformation equations, identify the state of stress when the element is rotated by an angle counterclockwise, where = 0=92 b. Identify the following stresses and sketch the appropriate stress elements respectively. (1) Principal stresses and principal planes. (ii) Maximum shear stress and the corresponding normal stress 30 MPa
By using the Mohr's circle approach, c. Construct the Mohr's circle for the stress element shown in Figure Q1. d. Identify the following stresses and sketch the appropriate stress elements respectively. (1) Principal stresses and principal planes. (ii) Maximum shear stress and the corresponding normal stress e. Identify the state of stress when the element is rotated by an angle of 34° counterclockwise. Sketch the stress element after rotation.
Transcribed Image Text:By using the Mohr's circle approach, c. Construct the Mohr's circle for the stress element shown in Figure Q1. d. Identify the following stresses and sketch the appropriate stress elements respectively. (1) Principal stresses and principal planes. (ii) Maximum shear stress and the corresponding normal stress e. Identify the state of stress when the element is rotated by an angle of 34° counterclockwise. Sketch the stress element after rotation.
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ans b please

As a project engineer, you have been tasked to perform a stress analysis of the plane stresses of a stress element from the tie bar of a die casting machine as shown in Figure Q1. 60 MPa 45 MPa. Figure Q1 By using the stress transformation equations, a. By using the stress transformation equations, identify the state of stress when the element is rotated by an angle counterclockwise, where = 0=92 b. Identify the following stresses and sketch the appropriate stress elements respectively. (1) Principal stresses and principal planes. (ii) Maximum shear stress and the corresponding normal stress 30 MPa
Transcribed Image Text:As a project engineer, you have been tasked to perform a stress analysis of the plane stresses of a stress element from the tie bar of a die casting machine as shown in Figure Q1. 60 MPa 45 MPa. Figure Q1 By using the stress transformation equations, a. By using the stress transformation equations, identify the state of stress when the element is rotated by an angle counterclockwise, where = 0=92 b. Identify the following stresses and sketch the appropriate stress elements respectively. (1) Principal stresses and principal planes. (ii) Maximum shear stress and the corresponding normal stress 30 MPa
By using the Mohr's circle approach, c. Construct the Mohr's circle for the stress element shown in Figure Q1. d. Identify the following stresses and sketch the appropriate stress elements respectively. (1) Principal stresses and principal planes. (ii) Maximum shear stress and the corresponding normal stress e. Identify the state of stress when the element is rotated by an angle of 34° counterclockwise. Sketch the stress element after rotation.
Transcribed Image Text:By using the Mohr's circle approach, c. Construct the Mohr's circle for the stress element shown in Figure Q1. d. Identify the following stresses and sketch the appropriate stress elements respectively. (1) Principal stresses and principal planes. (ii) Maximum shear stress and the corresponding normal stress e. Identify the state of stress when the element is rotated by an angle of 34° counterclockwise. Sketch the stress element after rotation.
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