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008			040616s2004 miua f 001 0 eng d
082	0	0	_a624.18341 _222 _bA181a
110	2		_93028 _aAmerican Concrete Institute. ACI
245	1	0	_aACI detailing manual-2004 / _cACI Committee 315, Details of concrete reinforcement.
260			_aDetroit: _bAmerican Concrete Institute, _c2004
300			_a212 p.: _bil. mapas.; _c29 cm.
490	1		_aPublication/American Concrete Institute; _vSP-66(04)
500			_aIncludes index.
505	0		_aDETAILS AND DETAILING OF CONCRETE REINFORCEMENT (315-99) Part A—Responsibilities of the architect/engineer Chapter 1—Structural drawings, p. 315-2 1.1—General 1.2—Drawing standards 1.3—Structural drawings—Buildings and other structures 1.4—Structural drawings—Highway and transportation structures Chapter 2—Standards of practice, p. 315-3 2.1—General 2.2—Tolerances 2.3—Bar lengths 2.4—Hooks and bends 2.5—Beams and girders 2.6—Columns 2.7—Development and splices of reinforcing steel 2.8—Joint details 2.9—Reinforcing steel supports 2.10—Special details for seismic design of frames, joints, walls, diaphragms, and two-way slabs 2.11—Corrosion-resistant coatings for reinforcing steel Part B—Responsibilities of the detailer Chapter 3—Placing drawings, p. 315-10 3.1—Definition 3.2—Scope 3.3—Procedure 3.4—Drawing standards 3.5—Building drawings 3.6—Highway drawings 3.7—Detailing to fabricating standards Chapter 4—Fabricating practice standards, p. 315-15 4.1—Fabrication 4.2—Extras 4.3—Tolerances Chapter 5—Supports for reinforcing steel, p. 315-16 5.1—General 5.2—Types of bar supports 5.3—Side form spacers and beam bolsters 5.4—Placing reinforcing steel supports Chapter 6—Computer-assisted detailing, p. 315-16 6.1—Use of computers in detailing 6.2—Placing drawings 6.3—Ordering procedures Chapter 7—Recommended practices for location of bars designated only by size/spacing, p. 315-17 Chapter 8—Glossary, p. 315-17 Chapter 9—References, p. 315-18 9.1—Reference standards 9.2—Cited references MANUAL OF STRUCTURAL AND PLACING DRAWINGS FOR REINFORCED CONCRETE STRUCTURES (ACI 315R-04) S-1—Foundations (Structural Drawing) ........................... 48 P-1—Foundations (Placing Drawing)............................... 50 P-1A—Foundations (Placing Drawing)............................ 52 S-2—Columns (Structural Drawing) ................................ 54 P-2—Columns (Placing Drawing) .................................... 56 S-3—One-Way Concrete Joist Floor (Structural Drawing) .................................................. 58 P-3—One-Way Concrete Joist Floor (Placing Drawing) . 60 S-4—Flat Slab Floor (Structural Drawing)....................... 62 P-4—Flat Slab Floor (Placing Drawing) .......................... 64 S-5—Flat Plate Slab Floor (Structural Drawing).............. 66 P-5—Flat Plate Slab Floor (Placing Drawing................... 68 S-6—Beam and Girder Framing (Structural Drawing)..... 70 P-6—Beam and Girder Framing (Placing Drawing) ........ 72 SP-7A—Slipform Concrete Walls (Combined Structural-Placing Drawing ....................................... 74 SP-7B—Slipform Concrete Walls (Combined Structural-Placing Drawing ....................................... 76 S-8—Turbine Pedestal (Structural Drawing).................... 78 P-8—Turbine Pedestal (Placing Drawing) ....................... 80 S-9—Foundations—CAD Generated (Structural Drawing) .................................................. 82 P-9—Foundations—Cad Generated (Placing Drawing)...................................................... 84 S-10—Seismic Frame Beams, Flat Plate Floor (Structural Drawing) .................................................. 86 P-10—Seismic Frame Beams, Flat Plate Floor (Placing Drawing)...................................................... 88 TYPICAL DRAWINGS FOR HIGHWAY STRUCTURES H-1—Slab Bridge—General............................................. 92 H-1A—Slab Bridge Abutment Details ............................. 94 H-1B—Slab Bridgebent Details........................................ 96 H-1C—Slab Bridge Deck Slab and Parapet Details ......... 98 H-2—Precast AASHTO I-Beam Sections—General ..... 100 H-2A—Precast AASHTO I-Beam Sections— Reinforcing Steel ..................................................... 102 H-2B—Precast AASHTO I-Beam Sections—Pretensioned Strands (40 to 55 ft Spans)....................................... 104 H-2C—Precast AASHTO I-Beam Sections—Pretensioned Strands (60 to 80 ft Spans)....................................... 106 H-2D—Precast AASHTO I-Beam Sections—Pretensioned Strands (90 to 120 ft Spans)..................................... 108 H-2E—Precast AASHTO I-Beam Sections—Post-Tensioned Strands (60 to 90 ft Spans) ..................... 110 H-2F—Precast AASHTO I-Beam Sections—Post-Tensioned Strands (90 to 120 ft Spans) ................... 112 H-3—Precast/Prestressed Concrete I-Beam Bridge—General ...................................................... 114 H-3A—Precast/Prestressed Concrete I-Beam Bridge— Abutment Details ..................................................... 116 H-3B—Precast/Prestressed Concrete I-Beam Bridge— Bent Details.............................................................. 118 H-3C—Precast/Prestressed Concrete I-Beam Bridge— Framing Plan and Deck Slab Details ....................... 120 H-3D—Precast/Prestressed Concrete I-Beam Bridge— Beam Details ............................................................ 122 H-3E—Precast/Prestressed Concrete I-Beam Bridge— Approach Slab and Reinforcing Steel Schedule ...... 124 H-4—Rolled Beam Bridge—General ............................. 126 H-4A—Rolled Beam Bridge—Abutment Details........... 128 H-4B—Rolled Beam Bridge—Bent Details ................... 130 H-4C—Rolled Beam Bridge Deck—Slab Details .......... 132 H-5—Precast Pretensioned Box Sections—General....... 134 H-5A—Precast Pretensioned Box Sections—Details ..... 136 H-6—Post-Tensioned Concrete Box Girder Bridge—General ...................................................... 138 H-6A—Post-Tensioned Concrete Box Girder Bridge—Abutment Details....................................... 140 H-6B—Post-Tensioned Concrete Box Girder— Bridgebent Details.................................................... 142 H-6C—Post-Tensioned Concrete Box Girder Bridge— Girder Details ........................................................... 144 H-6D—Post-Tensioned Concrete Box Girder—Slab and Girder Reinforcement........................................ 146 H-6E—Post-Tensioned Concrete Box Girder Bridge— Miscellaneous Details .............................................. 148 H-6F—Post-Tensioned Concrete Box Girder Bridge— Approach Slab.......................................................... 150 HE-7—Box Culvert (Structural Drawing) ...................... 152 HP-7—Culvert (Placing Drawing).................................. 154 H-8—Cantilevered Retaining Wall—Type 1 (1200 to 9100 mm Heights).................................................... 156 H-8A—Cantilevered Retaining Wall—Type 1 (9700 to 10,900 mm Heights)................................................. 158 H-8B—Cantilevered Retaining Wall—Type 1A (1200 to 3600 mm Heights).................................................... 160 H-8C—Cantilevered Retaining Wall—Type 2 (1800 to 6700 mm Heights).................................................... 162 H-8D—Cantilevered Retaining Wall—Details............... 164 SUPPORTING REFERENCE DATA Chapter 1—Reinforcing bars, p. 168 1.1—Bar specifications 1.2—Welding of bars 1.3—Overall bar diameter 1.4—ACI standard fabricating tolerances for nominally square saw-cut bar ends 1.5—Coated reinforcing bars 1.6—ASTM specifications for coated bars 1.7—Design data for reinforcing bars 1.8—Detailing data for reinforcing bars Table 1—Designations, weights, dimensions, and defor-mation requirements of standard ASTM reinforcing bars, p. 168 Table 2—ASTM specifications—bar sizes, grades, and requirements for strength in tension, elongation, and bending, p. 169 Table 3—Overall diameter of reinforcing bars, p. 169 Table 4—Maximum gap and end deviation, p. 169 Table 5—Areas (in.2 /ft) for various bar sizes and spacings, p. 171 Table 6—Bundled bars for longitudinal column reinforce-ment, p. 171 Table 7(a) and (b)—Tension development and lap-splice lengths for uncoated reinforcing bars, p. 172 Table 8(a) and (b)—Tension development and lap-splice lengths for epoxy-coated reinforcing bars, p. 173 Table 9—Tension embedment lengths for standard end hooks, p. 174 Table 10—Compression embedment and lap-splice lengths for reinforcing bars, p. 174 Table 11—Maximum arc length for shipping reinforcing bars, p. 175 Table 12—Maximum right angle leg for shipping reinforcing bars, p. 175 Chapter 2—Wires and welded wire fabric, p. 177 2.1—Introduction 2.2—Designation of wire size 2.3—Styles of welded wire fabric 2.4—Epoxy-coated wires and welded wire fabric 2.5—Dimensions of welded wire fabric 2.6—Design data for welded wire fabric Table 13—Specifications for wire and welded wire fabric, p. 177 Table 14—Minimum requirements of wire in welded wire fabric, p. 177 Table 15—Common styles of welded wire fabric, p. 177 Table 16—Sectional areas of welded wire fabric, p. 179 Table 17—Tension development and lap-splice lengths for plain welded wire fabric, p. 180 Table 18—Tension development lengths for deformed welded wire fabrics, p. 181 Table 19—Lap-splice lengths for deformed welded wire fabric, p. 182 Table 20—Tension development and lap-splice lengths for deformed wire, p. 183 Chapter 3—Bar supports, p. 184 3.1—General 3.2—Side-form-spacers 3.3—Nonstandard bar supports 3.4—CRSI bar-support recommendations Chapter 4—Spirals, p. 200 4.1—Purpose 4.2—Definitions 4.3—Reinforcement recommendations 4.4—Size and pitch recommendations 4.5—Spacer recommendations 4.6—Weight (mass) of spirals Table 21—Recommended spirals for circular columns, p. 200 Table 22—Suggested guidelines for spiral spacers, p. 200 Table 23(a)—Weight (mass) of #3 (#10) spirals, p. 201 Table 23(b)—Weight (mass) of #4 (#13) spirals, p. 201 Table 23(c)—Weight (mass) of #5 (#16) spirals, p. 202 Chapter 5—Mathematical tables and formulas, p. 203 5.1—Properties of the circle 5.2—Trigonometric formulas Chapter 6 — Common symbols and abbreviations, p. 205 6.1—Organizations 6.2—Stress and force designations 6.3—Structural steel designations 6.4—Bar supports 6.5—Parts of a structure (used in marks for structural members) 6.6—Common abbreviations Chapter 7—References, p. 207 7.1—Referenced standards and reports
520			_aLa edición de este recurso hay que tener 2004 proporciona respuestas a muchas preguntas que detallan formuladas por los ingenieros de diseño, arquitectos, contratistas, proyectistas y estudiantes de ingeniería. Se divide en tres secciones que incluyen "Detalles y Detallado de Refuerzo de Concreto (ACI 315-99)", "Manual de Ingeniería y Colocación de dibujos para Estructuras de Hormigón Armado (ACI 315R-04)", y el apoyo a los datos de referencia. Sección 1 define las responsabilidades de arquitectos, ingenieros y delineantes y establece estándares de práctica para ambos planos estructurales y colocación. Sección 2 ilustra las formas de presentar la información de diseño necesaria a través de 50 de gran tamaño, dibujos desplegables de estructuras de las carreteras y no de autopista. Dibujos estructurales se ajustan a los "Requisitos del Código de Construcción para Concreto Estructural (ACI 318-02 / 318R-02)" y todos los dibujos se prepararon con la ayuda de la Administración Federal de Carreteras del Departamento de Transporte de California, y para hormigón armado Steel Institute. Apoyo a los datos de referencia en la Sección 3 incluye capítulos específicos sobre las barras de refuerzo, cables, soportes de barras, espirales, fórmulas y tablas matemáticas y símbolos y abreviaturas comunes.
650		0	_92725 _aCONCRETO REFORZADO _zMANUALES _vMANUALES, GUÍAS, ETC
650		0	_93390 _aDIBUJO DE ESTRUCTURAS _vMANUALES, GUÍAS, ETC
942			_2ddc _cBK