The “Building Code Requirements for Structural Concrete” (“Code”) provides minimum requirements for the materials, design, and detailing of structural concrete buildings and, where applicable, nonbuilding structures. This Code was developed by an ANSI-approved consensus process and addresses structural systems, members, and connections, including cast-in-place, precast, shotcrete, plain, nonprestressed, prestressed, and composite construction. Among the subjects covered are: design and construction for strength, serviceability, and durability; load combinations, load factors, and strength reduction factors; structural analysis methods; deflection limits; mechanical and adhesive anchoring to concrete; development and splicing of reinforcement; construction document information; field inspection and testing; and methods to evaluate the strength of existing structures. The Code was substantially reorganized and reformatted in 2014, and this Code continues and expands that same organizational philosophy. The principal objectives of the reorganization were to present all design and detailing requirements for structural systems or for individual members in chapters devoted to those individual subjects, and to arrange the chapters in a manner that generally follows the process and chronology of design and construction. Information and procedures that are common to the design of multiple members are located in utility chapters. Additional enhancements implemented in this Code to provide greater clarity and ease of use include the first use of color illustrations and the use of color to help the user navigate the Code and quickly find the information they need. Special thanks to Bentley Systems, Incorporated, for use of their ProConcrete software to produce many of the figures found in the Commentary. Uses of the Code include adoption by reference in a general building code, and earlier editions have been widely used in this manner. The Code is written in a format that allows such reference without change to its language. Therefore, background details or suggestions for carrying out the requirements or intent of the Code provisions cannot be included within the Code itself. The Commentary is provided for this purpose. Some considerations of the committee in developing the Code are discussed in the Commentary, with emphasis given to the explanation of new or revised provisions. Much of the research data referenced in preparing the Code is cited for the user desiring to study individual questions in greater detail. Other documents that provide suggestions for carrying out the requirements of the Code are also cited. Keywords: admixtures; aggregates; anchorage (structural); beam-column frame; beams (supports); caissons; cements; cold weather; columns (supports); combined stress; composite construction (concrete to concrete); compressive strength; concrete; construction documents; construction joints; continuity (structural); contraction joints; cover; curing; deep beams; deep foundations; deflections; drilled piers; earthquake-resistant structures; flexural strength; floors; footings; formwork (construction); hot weather; inspection; isolation joints; joints (junctions); joists; lightweight concretes; load tests (structural); loads (forces); mixture proportioning; modulus of elasticity; moments; piles; placing; plain concrete; precast concrete; prestressed concrete; prestressing steels; quality control; reinforced concrete; reinforcing steels; roofs; serviceability; shear strength; shotcrete; spans; splicing; strength analysis; stresses; structural analysis; structural design; structural integrity; structural walls; T-beams; torsion; walls; water; welded wire reinforcement.

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PDF Pages	PDF Title
3	Front Matter
11	Chapter 1—General 1.1—Scope of ACI 318 1.2—General 1.3—Purpose
12	1.4—Applicability
14	1.5—Interpretation
15	1.6—Building official 1.7—Licensed design professional 1.8—Construction documents and design records
16	1.9—Testing and inspection 1.10—Approval of special systems of design, construction, or alternative construction materials
17	Chapter 2—Notation and Terminology 2.1—Scope 2.2—Notation
33	2.3—Terminology
49	Chapter 3—Referenced Standards 3.1—Scope 3.2—Referenced standards
53	Chapter 4—Structural System Requirements 4.1—Scope 4.2—Materials 4.3—Design loads
54	4.4—Structural system and load paths
56	4.5—Structural analysis
57	4.6—Strength
58	4.7—Serviceability 4.8—Durability 4.9—Sustainability 4.10—Structural integrity
59	4.11—Fire resistance 4.12—Requirements for specific types of construction
61	4.13—Construction and inspection 4.14—Strength evaluation of existing structures
63	Chapter 5—Loads 5.1—Scope 5.2—General
64	5.3—Load factors and combinations
69	Chapter 6—Structural Analysis 6.1—Scope 6.2—General
74	6.3—Modeling assumptions
75	6.4—Arrangement of live load
76	6.5—Simplified method of analysis for nonprestressed continuous beams and one-way slabs
77	6.6—Linear elastic first-order analysis
86	6.7—Linear elastic second-order analysis
87	6.8—Inelastic analysis
88	6.9—Acceptability of finite element analysis
91	Chapter 7—One-Way Slabs 7.1—Scope 7.2—General 7.3—Design limits
93	7.4—Required strength 7.5—Design strength
94	7.6—Reinforcement limits
96	7.7—Reinforcement detailing
101	Chapter 8—Two-Way Slabs 8.1—Scope 8.2—General
102	8.3—Design limits
105	8.4—Required strength
111	8.5—Design strength
112	8.6—Reinforcement limits
115	8.7—Reinforcement detailing
127	8.8—Nonprestressed two-way joist systems
129	Chapter 9—Beams 9.1—Scope 9.2—General
130	9.3—Design limits
132	9.4—Required strength
135	9.5—Design strength
137	9.6—Reinforcement limits
141	9.7—Reinforcement detailing
153	9.8—Nonprestressed one-way joist systems
154	9.9—Deep beams
157	Chapter 10—Columns 10.1—Scope 10.2—General 10.3—Design limits
158	10.4—Required strength
159	10.5—Design strength
160	10.6—Reinforcement limits 10.7—Reinforcement detailing
167	Chapter 11—Walls 11.1—Scope 11.2—General
168	11.3—Design limits 11.4—Required strength
169	11.5—Design strength
172	11.6—Reinforcement limits
173	11.7—Reinforcement detailing
174	11.8—Alternative method for out-of-plane slender wall analysis
177	Chapter 12—Diaphragms 12.1—Scope
178	12.2—General
179	12.3—Design limits
180	12.4—Required strength
183	12.5—Design strength
190	12.6—Reinforcement limits 12.7—Reinforcement detailing
193	Chapter 13—Foundations 13.1—Scope
195	13.2—General
199	13.3—Shallow foundations
201	13.4—Deep foundations
205	Chapter 14—Plain Concrete 14.1—Scope
206	14.2—General 14.3—Design limits
208	14.4—Required strength
209	14.5—Design strength
212	14.6—Reinforcement detailing
213	Chapter 15—Beam-Column and Slab-Column Joints 15.1—Scope 15.2—General
214	15.3—Detailing of joints
215	15.4—Strength requirements for beam-column joints
216	15.5—Transfer of column axial force through the floor system
219	Chapter 16—Connections Between Members 16.1—Scope 16.2—Connections of precast members
224	16.3—Connections to foundations
227	16.4—Horizontal shear transfer in composite concrete flexural members
229	16.5—Brackets and corbels
235	Chapter 17—Anchoring to Concrete 17.1—Scope
236	17.2—General
237	17.3—Design Limits
238	17.4—Required strength 17.5—Design strength
248	17.6—Tensile strength
263	17.7—Shear strength
272	17.8—Tension and shear interaction 17.9—Edge distances, spacings, and thicknesses to preclude splitting failure
274	17.10—Earthquake-resistant anchor design requirements
279	17.11—Attachments with shear lugs
287	Chapter 18—Earthquake-Resistant Structures 18.1—Scope 18.2—General
293	18.3—Ordinary moment frames
294	18.4—Intermediate moment frames
301	18.5—Intermediate precast structural walls 18.6—Beams of special moment frames
307	18.7—Columns of special moment frames
313	18.8—Joints of special moment frames
316	18.9—Special moment frames constructed using precast concrete
319	18.10—Special structural walls
338	18.11—Special structural walls constructed using precast concrete 18.12—Diaphragms and trusses
345	18.13—Foundations
353	18.14—Members not designated as part of the seismic-force-resisting system
357	Chapter 19—Concrete: Design and Durability Requirements 19.1—Scope 19.2—Concrete design properties
359	19.3—Concrete durability requirements
371	19.4—Grout durability requirements
373	Chapter 20—Steel Reinforcement Properties, Durability, & Embedments 20.1—Scope 20.2—Nonprestressed bars and wires
380	20.3—Prestressing strands, wires, and bars
384	20.4—Headed shear stud reinforcement 20.5—Provisions for durability of steel reinforcement
392	20.6—Embedments
393	Chapter 21—Strength Reduction Factors 21.1—Scope 21.2—Strength reduction factors for structural concrete members and connections
399	Chapter 22—Sectional Strength 22.1—Scope 22.2—Design assumptions for moment and axial strength
401	22.3—Flexural strength
402	22.4—Axial strength or combined flexural and axial strength
403	22.5—One-way shear strength
413	22.6—Two-way shear strength
422	22.7—Torsional strength
430	22.8—Bearing
432	22.9—Shear friction
437	Chapter 23—Strut-and-Tie Method 23.1—Scope
438	23.2—General
445	23.3—Design strength 23.4—Strength of struts
447	23.5—Minimum distributed reinforcement
448	23.6—Strut reinforcement detailing
449	23.7—Strength of ties 23.8—Tie reinforcement detailing
450	23.9—Strength of nodal zones
451	23.10—Curved-bar nodes
454	23.11—Earthquake-resistant design using the strut-and-tie method
457	Chapter 24—Serviceability 24.1—Scope 24.2—Deflections due to service-level gravity loads
462	24.3—Distribution of flexural reinforcement in one-way slabs and beams
463	24.4—Shrinkage and temperature reinforcement
465	24.5—Permissible stresses in prestressed concrete flexural members
469	Chapter 25—Reinforcement Details 25.1—Scope 25.2—Minimum spacing of reinforcement
471	25.3—Standard hooks, seismic hooks, crossties, and minimum inside bend diameters
473	25.4—Development of reinforcement
490	25.5—Splices
495	25.6—Bundled reinforcement
496	25.7—Transverse reinforcement
506	25.8—Post-tensioning anchorages and couplers
507	25.9—Anchorage zones for post-tensioned tendons
517	Chapter 26—Construction Documents and Inspection 26.1—Scope
518	26.2—Design criteria
519	26.3—Member information 26.4—Concrete materials and mixture requirements
530	26.5—Concrete production and construction
537	26.6—Reinforcement materials and construction requirements
542	26.7—Anchoring to concrete
544	26.8—Embedments
545	26.9—Additional requirements for precast concrete
546	26.10—Additional requirements for prestressed concrete
548	26.11—Formwork
550	26.12—Evaluation and acceptance of hardened concrete
556	26.13—Inspection
561	Chapter 27—Strength Evaluation of Existing Structures 27.1—Scope 27.2—General
562	27.3—Analytical strength evaluation
563	27.4—Strength evaluation by load test
564	27.5—Monotonic load test procedure
566	27.6—Cyclic load test procedure
569	Appendix A—A Design Verification Using Nonlinear Response History Analysis A.1—Notation and terminology A.2—Scope
570	A.3—General A.4—Earthquake ground motions
571	A.5—Load factors and combinations A.6—Modeling and analysis
572	A.7—Action classification and criticality
573	A.8—Effective stiffness
575	A.9—Expected material strength
576	A.10—Acceptance criteria for deformation-controlled actions
578	A.11—Expected strength for force-controlled actions
579	A.12—Enhanced detailing requirements
580	A.13—Independent structural design review
583	Appendix B—Steel Reinforcement Information
587	Appendix C—Equivalence Between SI-Metric, MKS-Metric, And U.S. Customary Units of Nonhomogenous Equations in the Code
597	Commentary References

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ACI	2019	628


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Standard Title	318M-19: Student Price – Building Code Requirements for Structural Concrete and Commentary, Metric
Published Code	ACI
Publication Date	2019
Pages Count	628

ACI 318M 2019

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