. Development of a spherical acrylic plastic pressure hull for hydrospace application. Hulls (Naval architecture); Submersibles. Figure 94. Cracks in beveled edge of acrylic plastic bearing surface for steel insert in a 15-inch-diameter capsule after 72 hours of sustained hydrostatic loading at 900 psi (looking at right angles to the bearing surface).. Figure 95. Cracks in the beveled edge of the acrylic plastic bearing surface for steel insert in a 15-inch-diameter capsule after 72 hours of sustained hydrostatic loading at 900 psi (looking at right angles to a cut through the bearing surface)
. Development of a spherical acrylic plastic pressure hull for hydrospace application. Hulls (Naval architecture); Submersibles. Figure 94. Cracks in beveled edge of acrylic plastic bearing surface for steel insert in a 15-inch-diameter capsule after 72 hours of sustained hydrostatic loading at 900 psi (looking at right angles to the bearing surface).. Figure 95. Cracks in the beveled edge of the acrylic plastic bearing surface for steel insert in a 15-inch-diameter capsule after 72 hours of sustained hydrostatic loading at 900 psi (looking at right angles to a cut through the bearing surface). 129. 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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