A composite spring consists of a steel close-coiled helical spring and a bronze close- coiled helical spring arranged in series. Data for the springs are given in the table below: D 40 mm 40 mm G 80 GPa 40 GPa TAllowable Steel Spring Bronze Spring 4.5 mm 4.5 mm 10 250 MPa 181 MPa Determine the ratio between the number of coils in each spring if the deflection of the two springs is to be the same. Calculate the number of coils of the bronze spring Calculate the maximum load that can be carried by the composite spring. Determine the total extension of the composite spring when subjected to the maximum

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A composite spring consists of a steel close-coiled helical spring and a bronze close-
coiled helical spring arranged in series. Data for the springs are given in the table below:
Steel Spring
Bronze Spring
D
40 mm
40 mm
4.5 mm
4.5 mm
G
80 GPa
40 GPa
TAllowable
250 MPa
181 MPa
10
Determine the ratio between the number of coils in each spring if the deflection of the two
springs is to be the same.
Calculate the number of coils of the bronze spring
Calculate the maximum load that can be carried by the composite spring.
Determine the total extension of the composite spring when subjected to the maximum
load.
* Calculate the total strain energy in the spring assembly.
Transcribed Image Text:A composite spring consists of a steel close-coiled helical spring and a bronze close- coiled helical spring arranged in series. Data for the springs are given in the table below: Steel Spring Bronze Spring D 40 mm 40 mm 4.5 mm 4.5 mm G 80 GPa 40 GPa TAllowable 250 MPa 181 MPa 10 Determine the ratio between the number of coils in each spring if the deflection of the two springs is to be the same. Calculate the number of coils of the bronze spring Calculate the maximum load that can be carried by the composite spring. Determine the total extension of the composite spring when subjected to the maximum load. * Calculate the total strain energy in the spring assembly.
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