INDEX 



Shrinkage, curing, 5-35 



thermal, 5-3 5 

 Side framing, impact pressure?, 2-19, 2- 



20 

 Single skin hull construction, with fram- 

 ing, 2-3 to 2-6 

 unstiffened, 2-2, 2-3 

 Sizes, 4-1 

 Slenderness ratio, 6-36 



compressive stress versus, 6-37 to 6-39 

 tables, 6-4-0 to 6-42 

 Sloop, Bounty II, 1-5 

 Specific gravity of laminates, 5-9 



table, 5-12' 

 Spheres, plastic, stiffener and sandwich 



cores, 4-16 

 Spray gun, 4-19, 4-20 

 Spun roving, 4-4, 4-5 

 Stabilizers, 4-13 

 Stiffeners, 2-5, 4-13 to 4-16 



bending, design example, 6-7 5 to 6-79 

 flexure, 6-61 to 6-79 



moment of inertia, 6-61 to 6-74 

 section moduli, 6-61 to 6-74 

 woven roving, half-round, 6-69 to 

 6-74 

 hat, 2-5, 6-61 to 6-68 

 foam, plastic, 4-14, 4-15 

 half-round, 2-5, 6-69 to 6-74 

 honeycomb, 4-1 5 

 spheres, plastic, 4-16 

 wood, 4-14 

 Strain, compressive, design example, 6- 

 15 to 6-17 

 curves, 6-3 to 6-5 



shear, design example, 6-15 to 6-17 

 stress relationship, 6-2 to 6-5 

 Strands, chopped, 4-6, 4-7 

 Strength, bearing (table), 3-16 

 compressive, 5-14 



tables, 5-22 to 5-24 

 criterion, design loading, 2-13 to 2-2 5 

 ballast attachment, 2-25 

 bulkheads, 2-24, 2-2 5 

 decks, 2-23, 2-24 

 gunwale, 2-24 



shell and framing, 2-13 to 2-20 

 transom, 2-21 to 2-23 

 fatigue, low density core materials, 



5-40 

 flexural, 5-14 



creep, 5-27, 5-29, 5-30 

 fatigue, 5-27 



low density core material, 5-39 

 modulus (table), 5-21 

 table, 5-20 

 impact, 5-14 to 5-16 

 shear, 5-14 



core material, 5-40 

 table, 5-25 

 test procedure, A-l 

 tensile (see Tensile strength) 

 Stress, cantilever sandwich beam, design 

 example, 6-184 to 6-191 



Stress, compressive, 2-10, 6-8 



slenderness ratio versus, 6-37 to 

 6-39 

 concentrations, 3-23, 3-24 

 in bonded joints, 3-24 

 table, 3-25 

 curves, 6-3 to 6-5 

 flexural, 6-8 

 shear, 2-6 



strain relationship, 6-2 to 6-5 

 tensile, 2-10, 6-8 



design example, 6-17, 6-18 

 Submarine, Fairwater, 1-6 

 Sunlight, direct, 5-36 



Technical status, 1-2 



Tensile elastic constants, 6-9, 6-10, 6-12 



Tensile load, ultimate, design examples, 



6-2 5 to 6-29 

 Tensile modulus, 6-8 

 Tensile physical properties, design ex- 

 ample, 6-14, 6-1 5 

 Tensile strength, 3-1, 5-14 



core materials, low density, 5-39 



creep, 5-27 to 5-29 



fatigue, 5-26 



isotropic and orthotropic materials, 

 distribution, 6-6 



modulus (table), 5-18 



Poisson's ratio (table), 5-19 



table, 5-17 

 Tensile stress, 2-10, 6-8 



design example, 6-17, 6-18 

 Tension, 6-19 to 6-3 3 



isotropic laminates, 6-19 to 6-21 

 design examples, 6-20, 6-21 



orthotropic laminates, 6-21, 6-22 

 composite, 6-21, 6-22 

 design examples, 6-21, 6-22 



Poisson's ratio in, test procedure, A-l 

 Test equipment, impact, 5-15 

 Test procedures, 5-6, 5-3 3, A-l 

 Test program to obtain properties, 5-3 to 

 5-9, B-l to B-7 



data, statistical analysis, 5-6, 5-7, 5-3 3 



fabrication method, 5-5, 5-31 



laminates, types, 5-5, 5-31 



main variables, results of investigation, 

 5-7, 5-8 



materials, 5-5, 5-3 1 



procedures, 5-6, 5-33 



purpose, 5-3 to 5-5, 5-31 



supplementary, 5-31 to 5-33 



tables, discussion of, 5-8, 5-9 

 Thermal shrinkage, 5-3 5 

 Thickness of laminates, 5-9 



table, 5-10 

 Thor-Able rocket, 1-7 

 Threaded fasteners, 3-17 to 3-21 



direction for, right and wrong, 3-17 



holding forces, 3-17 

 tables, 3-19, 3-20 



insert for, 3-21 



Threaded fasteners, loading directions, 

 3-17 

 tables for determining, 3-19, 3-20 

 use of, 3-18 



Through bolting, 3-21 



Transom, strength criterion, design load- 

 ing, 2-21 to 2-23 



Treads, rubber, connections, 3-14 



Truck cab, 1-3 



Ultra-violet rays, weather deterioration, 



5-36 

 Unidirectional roving, 4-2 

 Uniform load, cloth, design example, 6- 

 169 

 woven roving, design example, 6-169 

 to 6-180 

 Utility boat, 1-6 



Vibration criterion, design loading, 2- 



12, 2-13 

 Void content of laminates, 5-9 to 5-13 



shop practice, 5-34 



table, 5-13 



Washing, shop practice, 5-34 

 Water immersion, 5-3 5, 5-36 

 Weathering, 5-36, 5-37 

 Weight of laminates, 5-9 



table, 5-11 

 Wet strength retention, 5-3 5, 5-36 



table, 5-37 

 Whale boat, navy, 1-4 

 Windshields, connections, 3-14 

 Wood stiffener and sandwich cores, 4-14 

 Woven roving, 4-2 to 4-4 



compression in, design example, 6-44 

 to 6-46 

 without buckling, design example, 

 6-33, 6-34 

 compressive stress versus slenderness 



ratio for, 6-38 

 critical buckling loads (tables), all 

 edges clamped, 6-120 to 6-124 

 all edges simply supported, 6-10 5 



to 6-109 

 loaded edges clamped, remaining 

 edges simply supported, 6-115 

 to 6-119 

 loaded edges simply supported, re- 

 maining edges clamped, 6-1 1 to 

 6-114 

 half-round stiffeners, 6-69 to 6-74 

 hat stiffeners, flexure, 6-61 to 6-68 

 plates, laterally loaded (table), 6-159 



to 6-163 

 slenderness ratios for (table), 6-41 

 tensile strength for, design example, 



6-17, 6-18 

 under tensile load, design example, 

 6-21 

 Wrinkles, shop practice, 5-34 



Yawl, 1-5 



