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ANSI / AWC SDPWS-2015 - Special Design Provisions for Wind and Seismic standard provides criteria for proportioning, designing, and detailing engineered wood systems, members, and connections in lateral force resisting systems. Engineered design of wood structures to resist wind or seismic forces is either by allowable stress design (ASD) or load and resistance factor design (LRFD). Nominal shear capacities of diaphragms and shear walls are provided for reference assemblies.
ANSI / AF&PA SDPWS-2005 - Special Design Provisions for Wind and Seismic standard with Commentary covers materials, design and construction of wood members, fasteners, and assemblies to resist wind and seismic forces. Engineered design of wood structures to resist wind or seismic forces is either by allowable stress design (ASD); or load and resistance factor design (LRFD).
The 2003 edition of the NEHRP Recommended Provisions contains several significant changes, including: a reformatting to improve its usability; introduction of a simplified design procedure, an updating of the seismic design maps and how they are presented; a modification in the redundancy factor; the addition of ultimate strength design provisions for foundations; the addition of several new structural systems, including buckling restrained braced frames and steel plate shear walls; structures with damping systems has been moved from an appendix to a new chapter; and inclusion of new or updated material industry reference standards for steel, concrete, masonry, and wood.
Design provisions in the NDS are integral with design values in the NDS Supplement. As such, it is not appropriate to mix design values and provisions from different editions of the NDS. For example, the 2001 NDS Supplement contains increased shear design values for sawn lumber to reflect changes in ASTM D245 and provisions of the 2001 NDS were revised to address these increases.
This overview of the analysis and design of buildings runs from basic principles and elementary structural analysis to the selection of structural systems and materials, and on to foundations and retaining structures. It presents a variety of approaches and methodologies while featuring realistic design examples. As a comprehensive guide and desk reference for practicing structural and civil engineers, and for engineering students, it draws on the author’s teaching experience at The City College of New York and his work as a design engineer and architect. It is especially useful for those taking the National Council of Examiners for Engineering and Surveying SE exam.
Maximize your efficiency while studying for the PE Civil CBT exam by pairing the PE Civil Study Guide with Michael R. Lindeburg’s PE Civil Reference Manual PE Civil Study Guide, Seventeenth Edition provides a strategic and targeted approach to exam preparation so that you gain a competitive edge. With hundreds of entries containing helpful explanations, derivations of equations, and exam tips, the Study Guide connects the NCEES exam specifications for all five PE Civil exams to the NCEES Handbook, approved design standards, and PPI’s civil reference manuals. The Study Guide is organized to make the most of your time and is an essential tool for a successful exam experience. Relevant sections from the NCEES Handbook, design standards, and PPI’s reference manuals are clearly indicated in both summary lists for each exam specification and in each of the detailed entries covering a specific concept or equation. Referenced PPI Products: PE Civil Reference Manual Structural Depth Reference Manual for the PE Civil Exam Construction Depth Reference Manual for the PE Civil Exam Transportation Depth Reference Manual for the PE Civil Exam Water Resources and Environmental Depth Reference Manual for the PE Civil Exam Referenced Codes and Standards: 2015 International Building Code (ICC) A Policy on Geometric Design of Highways & Streets (AASHTO) AASHTO Guide for Design of Pavement Structures (AASHTO) AASHTO LRFD Bridge Design Specifications Building Code Requirements & Specification for Masonry Structures (ACI 530) Building Code Requirements for Structural Concrete & Commentary (ACI 318) Design & Construction of Driven Pile Foundations (FHWA) Design & Construction of Driven Pile Foundations—Volume I (FHWA) Design & Control of Concrete Mixtures (PCA) Design Loads on Structures During Construction (ASCE 37) Formwork for Concrete (ACI SP-4) Foundations & Earth Structures, Design Manual 7.02 Geotechnical Aspects of Pavements (FHWA) Guide for the Planning, Design, & Operation of Pedestrian Facilities (AASHTO) Guide to Design of Slabs-on-Ground (ACI 360R) Guide to Formwork for Concrete (ACI 347R) Highway Capacity Manual (TRB) Highway Safety Manual (AASHTO) Hydraulic Design of Highway Culverts (FHWA) LRFD Seismic Analysis & Design of Transportation Geotechnical Features & Structural Foundations Reference Manual (FHWA) Manual on Uniform Traffic Control Devices (FHWA) Minimum Design Loads for Buildings & Other Structures (ASCE/SEI 7) National Design Specification for Wood Construction (AWC) Occupational Safety & Health Regulations for the Construction Industry (OSHA 1926) Occupational Safety & Health Standards (OSHA 1910) PCI Design Handbook: Precast & Prestressed Concrete (PCI) Recommended Standards for Wastewater Facilities (TSS) Roadside Design Guide (AASHTO) Soils & Foundations Reference Manual—Volume I & II (FHWA) Steel Construction Manual (AISC) Structural Welding Code—Steel (AWS)