Structural analysis of spherical pressure hull viewport for manned submersibles using biological growth method

Manned submersibles are important platforms for exploration and research under the oceans. One of the most important components of the manned submersible is the viewport, which develops high stresses due to the nature of its design. The basic dimensions of the viewport window and its flange are dete...

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Bibliographic Details
Published in:Ships and offshore structures 2018-08, Vol.13 (6), p.601-616
Main Authors: SB, Pranesh, Kumar, Deepak, V, Anantha Subramanian, D, Sathianarayanan, GA, Ramadass
Format: Article
Language:English
Subjects:
biological growth method
Dimensions
Exploration
finite element analysis
Fish fillets
Growth
Manned submersible
Manned submersibles
Methods
Oceans
Seafoods
Shape
Sharpness
spherical pressure hull
Stress
Stresses
Structural analysis
Submarines
Submersibles
Titanium alloy
viewport
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Summary:Manned submersibles are important platforms for exploration and research under the oceans. One of the most important components of the manned submersible is the viewport, which develops high stresses due to the nature of its design. The basic dimensions of the viewport window and its flange are determined using ASME PVHO-1. Analysis of the viewport for given basic dimensions, shows that the corners of the low-pressure face of the viewport window and the notch regions of the flange are subjected to high stresses. Using the fillet radius method at the notch region results in stress reduction by 64%. The biological growth method helps in getting the naturally optimised shape at the corner. The use of the biological growth method for structural shape modification reduces the stress acting on the acrylic viewport by 71%. The same method applied to the flange notch region reduces its sharpness and the stress there by a considerable amount. This also helps in increasing the number of cycles of operation.
ISSN:1744-5302
1754-212X
DOI:10.1080/17445302.2018.1440885