. Deep-sea moorings; design and use with unmanned instrument stations. Deep-sea moorings; Oceanographic buoys. Mooring Lines- h Spreader Bar For Bridle Main Anchor Wire. Fig. 6. Self-reeling submerged float. sea area. The wire used in recent work had an ultimate tensile strength of about 260,000 psi. The above relates solely to the quasi-static stresses produced in lowering the mooring wire. Other dynamic stresses become important as soon as the anchor reaches bottom. The area presented by such a wire to the horizontal drag force may be quite large. For example, 15,000 feet of %-inch wire pres
. Deep-sea moorings; design and use with unmanned instrument stations. Deep-sea moorings; Oceanographic buoys. Mooring Lines- h Spreader Bar For Bridle Main Anchor Wire. Fig. 6. Self-reeling submerged float. sea area. The wire used in recent work had an ultimate tensile strength of about 260,000 psi. The above relates solely to the quasi-static stresses produced in lowering the mooring wire. Other dynamic stresses become important as soon as the anchor reaches bottom. The area presented by such a wire to the horizontal drag force may be quite large. For example, 15,000 feet of %-inch wire presents about 156. 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 Isaacs, John D. (John Dove). Berkeley, University of California Press
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