Task 1 My ID: 21080238 "A 100 mm diameter stainless steel pipe is subjected to a downward force of n N (as shown in figure 1), where n corresponds to the last three digits of your UWE ID (e.g.. if your ID is 14020175, n = 175). Determine the displacement at the end of the pipe (the point of load application) and the maximum stress for the following two scenarios": Pipe thickness = 8 mm ⚫ Pipe thickness = 12 mm Use ANSYS software to model and analyze the pipe. Write a concise report outlining the findings and describing how the displacement and maximum stress are affected by the pipe's thickness. Note: For precise modeling, use the dimensions exactly as they appear in the given figure. 50 mm 300 mm Fixed end B nN 1 m 0.5 m 0.5 m 100 mm Figure 1
Task 1 My ID: 21080238 "A 100 mm diameter stainless steel pipe is subjected to a downward force of n N (as shown in figure 1), where n corresponds to the last three digits of your UWE ID (e.g.. if your ID is 14020175, n = 175). Determine the displacement at the end of the pipe (the point of load application) and the maximum stress for the following two scenarios": Pipe thickness = 8 mm ⚫ Pipe thickness = 12 mm Use ANSYS software to model and analyze the pipe. Write a concise report outlining the findings and describing how the displacement and maximum stress are affected by the pipe's thickness. Note: For precise modeling, use the dimensions exactly as they appear in the given figure. 50 mm 300 mm Fixed end B nN 1 m 0.5 m 0.5 m 100 mm Figure 1
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:Task 1
My ID: 21080238
"A 100 mm diameter stainless steel pipe is subjected to a downward force of n N (as
shown in figure 1), where n corresponds to the last three digits of your UWE ID (e.g..
if your ID is 14020175, n = 175). Determine the displacement at the end of the pipe
(the point of load application) and the maximum stress for the following two
scenarios":
Pipe thickness = 8 mm
⚫ Pipe thickness = 12 mm
Use ANSYS software to model and analyze the pipe. Write a concise report outlining
the findings and describing how the displacement and maximum stress are affected
by the pipe's thickness.
Note: For precise modeling, use the dimensions exactly as they appear in the given
figure.
50 mm
300 mm
Fixed end
B
nN
1 m
0.5 m 0.5 m
100 mm
Figure 1
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