Structural Optimization for a Spherical Pressure Hull of a Deep Manned Submersible Based on an Appropriate Design Standard

A program has been initiated to provide the oceanographic community with a manned submersible with panoramic visibility for 2439 m (8000 ft) design depth. The first phase of the program is to validate the design of the acrylic plastic pressure hull utilizing model scale spheres with different diameters and thickness to inside diameter (t/Di) ratios. This papers summarizes 1) the criteria used in the design of the acrylic plastic hull for 2439 m (8000 ft) depth, 2) the experimental test plan for validation of the hull design, and 3) the fabrication, and short-term pressurization to destruction of the first scale model with an aluminum hatch. The 457-mm (18-in.) o.d. acrylic sphere with t/Di ratio of 0.2 successfully withstood 1-hr long pressurizations from 0 to 6.9, 13.8, 20.7, 27.6, 34.4 and 41.3 MPa (1000, 2000, 3000, 4000, 5000, and 6000 psi) followed by 1-hr long relaxation periods after each pressurization prior to imploding at 110.2 MPa (16,000 psi) under 4.5 MPa/min (650 psi/min) pressurization. The selected t/Di ratio 0.2 appears to exceed the design depth requirement for 2439 m (8000 ft).

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Multi-Crack Interaction and Influence on the Spherical Pressure Hull for a Deep-Sea Manned Submersible

Journal of Marine Science and Application ◽

10.1007/s11804-021-00223-0 ◽

2021 ◽

Author(s):

Rujun Li ◽

Yongmei Zhu ◽

Wenjing Fang ◽

Baoji Yin

Keyword(s):

Deep Sea ◽

Crack Interaction ◽

Manned Submersible ◽

Spherical Pressure

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Manufacturing Imperfection Sensitivity Analysis of Spherical Pressure Hull for Manned Submersible

Marine Technology Society Journal ◽

10.4031/mtsj.47.6.3 ◽

2013 ◽

Vol 47 (6) ◽

pp. 64-72 ◽

Cited By ~ 5

Author(s):

Bhaskaran Pranesh ◽

Dharmaraj Sathianarayanan ◽

Sethuraman Ramesh ◽

Gidugu Ananda Ramadass

Keyword(s):

Numerical Analysis ◽

Parametric Design ◽

External Pressure ◽

Imperfection Sensitivity ◽

Element Analysis ◽

Allowable Deviation ◽

Buckling Behavior ◽

Manufacturing Procedure ◽

Manned Submersible ◽

Spherical Pressure

AbstractAny pressure hull invariably has imperfections as a result of the manufacturing procedure. Imperfections in a spherical pressure hull are the basis for localized buckling and deformation behavior. Numerical analysis and analytical calculations are carried out to predict the buckling behavior and strength of a pressure hull made of titanium alloy (Ti-6Al-4V) for both perfect and imperfect pressure hulls. Finite element analysis is carried out for different imperfection angles to see the effect on strength and buckling. Results of numerical analysis show that there is considerable reduction in both buckling pressure and strength as a result of imperfections. Hence, allowable deviation due to imperfection for a spherical pressure hull has to be considered for thickness calculations.Abbreviations:P external pressure (Design pressure)Dm mean diameter of the pressure hullRm mean radius of the pressure hullRi imperfect radius of the pressure hullt thickness of the pressure hullΔR imperfect deviationδ imperfection angleσ hoop stressPy pressure at yield strength of the materialPb buckling pressureE Young’s modulus of the materialμ Poisson’s ratioMSW meters of sea waterAPDL ANSYS Parametric Design Language

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