An aluminum pipe is filled in concrete is subjected to a pure compressive force as shown in the figure below. Determine the factor of safety against compressive stress acting on the column. The pipe has an outer diameter of 45 mm and inner diameter of 35 mm. The aluminum and the polymer concrete have the following material properties: Young's modulus: Eal = 70 GPa (aluminum),
An aluminum pipe is filled in concrete is subjected to a pure compressive force as shown in the figure below. Determine the factor of safety against compressive stress acting on the column. The pipe has an outer diameter of 45 mm and inner diameter of 35 mm. The aluminum and the polymer concrete have the following material properties: Young's modulus: Eal = 70 GPa (aluminum),
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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Transcribed Image Text:An aluminum pipe is filled in concrete is
subjected to a pure compressive force as
shown in the figure below. Determine the
factor of safety against compressive stress
acting on the column. The pipe has an outer
diameter of 45 mm and inner diameter of
35 mm.
The aluminum and the polymer concrete
have the following material properties:
Young's modulus: Eal = 70 GPa (aluminum),
Ecr = 30 GPa (concrete).
Yield compressive strength: Sy-al = 180
MPa (aluminum), Sy-cr = 60 MPa
(concrete).
100 kN
500 mm
Transcribed Image Text:Young's modulus: Eal = 70 GPa (aluminum),
Ecr = 30 GPa (concrete).
Yield compressive strength: Sy-al = 180
MPa (aluminum), Sy-cr = 60 MPa
(concrete).
100 kN
500 mm
Select one:
FS = 1.5
FS = 1.9
O FS = 2.2
O FS = 1.7
FS = 2.4
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