Optimum Design of Compound Pressure Vessel

Optimum Design of Compound Pressure Vessel

Md. Tanjin Amin

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Aminur Rahman

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Dr. Abu Rayhan Md. Ali

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Bangladesh University of Engineering and Technology

Optimum Design of Compound Pressure Vessel

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Abstract

Effect of compounding investigated theoretically by finite element modeling. The variables are interference radius & shrinkage tolerance. Equivalent von Mises stress is used as yield criterion to evaluate the optimum interference radius. For two different working pressure the effect of the ratio of outer & inner radius (b/a=k) value on the optimum interference radius is also noticed. The optimum interference radius solely depends on shrinkage tolerance. Furthermore, percentage reduction of von Mises tolerance is compared for different working pressures & different k values as well as for different materials.

References

13 Cites in Article

Reference Format

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Funding

No external funding was declared for this work.

Conflict of Interest

The authors declare no conflict of interest.

Ethical Approval

No ethics committee approval was required for this article type.

Data Availability

Not applicable for this article.

How to Cite This Article

Md. Tanjin Amin. 2014. \u201cOptimum Design of Compound Pressure Vessel\u201d. Global Journal of Research in Engineering - A : Mechanical & Mechanics GJRE-A Volume 13 (GJRE Volume 13 Issue A11): .

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GJRE Volume 13 Issue A11
Pg. 23- 28

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Journal Specifications

Crossref Journal DOI 10.17406/gjre

Print ISSN 0975-5861

e-ISSN 2249-4596

Keywords

autofrettage elasto-plastic junction pressure vessel residual stress von mises stress working pressure

Submission ReceivedDecember 15, 2012
Peer Review Double Blind
Handling Editor
Accepted January 4, 2013
Published January 15, 2013

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v1.2

Issue date

January 28, 2014

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Article Matrices

Total Score: 108

Country: Bangladesh

Subject: Global Journal of Research in Engineering - A : Mechanical & Mechanics

Authors: Md. Tanjin Amin, Aminur Rahman, Dr. Abu Rayhan Md. Ali (PhD/Dr. count: 1)

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Total Views: 4871

Total Downloads: 2448

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