IJPAM: Volume 120, No. 1 (2018)

Title

CREEP TRANSITION IN TRANSVERSELY ISOTROPIC
COMPOSITE CIRCULAR CYLINDER SUBJECTED
TO INTERNAL PRESSURE

Authors

Sanjeev Sharma$^1$, Richa Sharma$^2$, Rekha Panchal$^3$
$^{1,3}$Department of Mathematics
Jaypee Institute of Information Technology
Noida, INDIA
$^2$Department of Mathematics
SBSR, Sharda University
Greater Noida, INDIA

Abstract

Creep stresses occur in cylinder comprised with transversely isotropic composite material subjected to internal pressure. The Seth's transition theory, based on principal Almansi's strain measure is basically applied to simplify mechanical equations by mentioning the order of the measure related to deformations.The Results have been discussed analytically and numerically. From the results, it has been concluded that highly non-homogeneous transversely isotropic thick circular cylinder subjected to internal pressure for nonlinear stain measure is better alternative for designing point of view as compared to less non-homogeneous transversely isotropic thick circular cylinder.

History

Received: February 15, 2017
Revised: August 18, 2018
Published: August 20, 2018

AMS Classification, Key Words

AMS Subject Classification: 74A10, 74C20, 74C99
Key Words and Phrases: creep, pressure, cylinder, functionally graded transversely isotropic material

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Bibliography

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How to Cite?

DOI: 10.12732/ijpam.v120i1.8 How to cite this paper?

Source:
International Journal of Pure and Applied Mathematics
ISSN printed version: 1311-8080
ISSN on-line version: 1314-3395
Year: 2018
Volume: 120
Issue: 1
Pages: 87 - 96


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