A spherical pressure vessel consists of two hemispherical shells is put together with a flange joint. The vessel has a radius r of 0.6 m. The vessel is designed to hold repeated pressurizing and depressurizing from 200.0 kPa to 700.0 kPa. The flange joint radius is 1.0 m. Design the bolted joint so that the safety factor of the vessel is 3.4 using grade 12.9 fine-threaded bolts.
A spherical pressure vessel consists of two hemispherical shells is put together with a flange joint. The vessel has a radius r of 0.6 m. The vessel is designed to hold repeated pressurizing and depressurizing from 200.0 kPa to 700.0 kPa. The flange joint radius is 1.0 m. Design the bolted joint so that the safety factor of the vessel is 3.4 using grade 12.9 fine-threaded bolts.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Question
Transcribed Image Text:1.0 m
Figure 1: Spherical pressure vessel
d
8
10
12
14
16
18
20
22
23
27
30
0.6 m
33
36
A₁
39.2
61.2
92.1
125.0
167.0
216.0
272.0
333.0
384.0
496.0
621.0
761.0
865.0
39 1030.0
Table 1: Diameter d in mm and stress area A, in mm²
of fine-threaded ISO bolts
Transcribed Image Text:A spherical pressure vessel consists of two hemispherical shells is put together with a flange joint. The vessel has
a radius r of 0.6 m. The vessel is designed to hold repeated pressurizing and depressurizing from 200.0 kPa to 700.0
kPa. The flange joint radius is 1.0 m. Design the bolted joint so that the safety factor of the vessel is 3.4 using grade
12.9 fine-threaded bolts.
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