. Development of a spherical acrylic plastic pressure hull for hydrospace application. Hulls (Naval architecture); Submersibles. A psi;t 500 psi for to psi at 100-psi epressurized to 500 PS 220min;depressunzed at 100-psi to 0 psi at eld for 10 n 100-psi/mm ii 1 J "^ pressured to -> 500 psi at 100-psi/min i for 240 mm, depress!. )-psi/min rate held at 500 p to 0 psi at 50 Notes: 1. Temperature o interior surface—38° " I Temperature o J. Dimensions of exterior surface—34° phere—66-in. OD x 6 i G Piexiglas F -in ID Figure 112. Comparison of strains under 500-psi sustained
. Development of a spherical acrylic plastic pressure hull for hydrospace application. Hulls (Naval architecture); Submersibles. A psi;t 500 psi for to psi at 100-psi epressurized to 500 PS 220min;depressunzed at 100-psi to 0 psi at eld for 10 n 100-psi/mm ii 1 J "^ pressured to -> 500 psi at 100-psi/min i for 240 mm, depress!. )-psi/min rate held at 500 p to 0 psi at 50 Notes: 1. Temperature o interior surface—38° " I Temperature o J. Dimensions of exterior surface—34° phere—66-in. OD x 6 i G Piexiglas F -in ID Figure 112. Comparison of strains under 500-psi sustained hydrostatic loading and strains under 500-psi sustained hydrostatic loading following a sustained loading of 1,000 psi; strains were measured on the interior surface in the equatorial region of the 66-inch-diameter Figure 113. Change in displacement of the 66-inch-diameter capsule under sustained hydrostatic loadings of different Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Stachiw, Jerry D. , 1931-; Naval Civil Engineering Laboratory (Port Hueneme, Calif. ). Port Hueneme, Calif. : U. S. Naval Civil Engineering Laboratory
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