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A Complete Guide to Masonry Materials and Structural Design Written by the former chair of the Masonry Standards Joint Committee (MSJC), this authoritative volume covers the design of masonry structures using the 2009 International Building Code and the 2008 MSJC Code and Specification. Masonry Structural Design emphasizes the strength design of masonry and includes allowable-stress provisions. Innovations such as autoclaved aerated concrete masonry (AAC) are also discussed. Real-world case studies featuring a low-rise building with reinforced concrete masonry and a four-story building with clay masonry illustrate the techniques presented in this comprehensive resource. Coverage includes: Basic structural behavior and design of low-rise, bearing wall buildings Materials used in masonry construction Code basis for structural design of masonry buildings, including seismic design Introduction of MSJC treatment of structural design Strength design of reinforced and unreinforced masonry elements Allowable-stress design of reinforced and unreinforced masonry elements Comparison of design by the allowable-stress approach versus the strength approach Lateral load analysis of shear wall structure Design and detailing of floor and roof diaphragms
The Reinforced Masonry Engineering Handbook provides the coefficients, tables, charts, and design data required for the design of reinforced masonry structures. This edition improves and expands upon previous editions, complying with the current Uniform Building Code and paralleling the growth of reinforced masonry engineering. Discussions include: materials strength of masonry assemblies loads lateral forces reinforcing steel movement joints waterproofing masonry structures and products formulas for reinforced masonry design retaining walls and more This comprehensive, useful book serves as an exceptional resource for designers, contractors, builders, and civil engineers involved in reinforced masonry - eliminating repetitious and routine calculations as well as reducing the time for masonry design.
The Definitive Guide to Designing Reinforced Masonry Structures Fully updated to the 2009 International Building Code (2009 IBC) and the 2008 Masonry Standards Joint Committee (MSJC-08), Design of Reinforced Masonry Structures, second edition, presents the latest methods for designing strong, safe, and economical structures with reinforced masonry. The book is packed with more than 425 illustrations and a wealth of new, detailed examples. This state-of-the-art guide features strength design philosophy for reinforced masonry structures based on ASCE 7-05 design loads for wind and seismic design. Written by an internationally acclaimed author, this essential professional tool takes you step-by-step through the art, science, and engineering of reinforced masonry structures. COVERAGE INCLUDES: Masonry units and their applications Materials of masonry construction Flexural analysis and design Columns Walls under gravity and transverse loads Shear walls Retaining and subterranean walls General design and construction considerations Anchorage to masonry Design aids and tables
With dozens of design examples and design tips, coupled with excellent discussion, Strength Design of Masonry is a guide every practicing designer will want on their bookshelf to both learn from, and to reference. Topics addressed include an introduction to strength design concepts, background on structural masonry, general design, strength design procedures for beams, walls, columns, and shear walls, requirements for reinforcement and anchor bolts, and recommendations for construction. While the guide addresses unreinforced masonry, the primary focus is reinforced masonry designed to the 2016 edition of TMS 402/602 and the 2018 International Building Code. This Guide was developed to introduce strength design principles of masonry to designers unfamiliar with the method, while helping those more experienced use strength design easily and effectively.
This edition has been fully revised and extended to cover blockwork and Eurocode 6 on masonry structures. This valued textbook:Discusses all aspects of design of masonry structures in plain and reinforced masonry.summarizes materials properties and structural principles as well as describing structure and content of codes.Presents design procedures
A complete, accessible introduction to structural masonryfundamentals. This practical volume provides a thorough grounding in the designof masonry structures for buildings --with clear and easy-to-graspcoverage of basic materials, construction systems, building codes,industry standards, and simple computations for structural elementsof commonly used forms of masonry. Well-written and carefullyorganized, the book: * Includes all principal types of masonry materials: brick, stone,fired clay, concrete block, glass block, and more * Contains information on unreinforced, reinforced, and veneeredconstruction * Examines key design criteria: dead loads, live loads, lateralloads, structural planning, building code requirements, andperformance measurement * Features helpful study aids --including exercises and solutions,glossary of terms, bibliography, and detailed appendices. Requiring only minimal prior experience in engineering analysis ordesign, Simplified Design of Masonry Structures is ideal forself-study or classroom use. It is an essential reference forarchitecture and engineering students and professionals.
Emphasizes actual structural design, not analysis, of multistory buildings for seismic resistance. Strong emphasis is placed on specific detailing requirements for construction. Fundamental design principles are presented to create buildings that respond to a wide range of potential seismic forces, which are illustrated by numerous detailed examples. The discussion includes the design of reinforced concrete ductile frames, structural walls, dual systems, reinforced masonry structures, buildings with restricted ductility and foundation walls. In addition to the examples, full design calculations are given for three prototype structures.
Masonry is found extensively in construction throughout the world. It is economical and strong. Masonry Design—part of the Architect’s Guidebook to Structures series—presents the fundamentals in an accessible fashion through beautiful illustrations, simple and complete examples, and from the perspective of practicing professionals with hundreds of projects under their belt and decades of teaching experience. Masonry Design provides the student with and reminds the practitioner of fundamental masonry design principles. Beginning with an intriguing case study of the Mesa Verde National Park visitor center, the subsequent chapters present the fundamentals of masonry design, bending, shear, compression design, wind and seismic design, and connection design. It is a refreshing change in textbooks for architectural materials courses and is an indispensable reference for practicing architects.
Thoroughly Updated Coverage of Masonry Codes, Materials, and Structural Design This fully revised resource covers the design of masonry structures using the 2015 International Building Code, the ASCE 7-10 loading standard, and the TMS 402-13 and TMS 602-13 design and construction standards. The book emphasizes the strength design of masonry and includes allowable-stress provisions. The latest advances, materials, and techniques are clearly explained. Chapter-long case studies featuring a low-rise building with reinforced concrete masonry and a four-story building with clay masonry illustrate the topics presented. Masonry Structural Design, Second Edition, covers: • Structural behavior and design of low-rise, bearing wall buildings • Materials used in masonry construction • Code basis for structural design of masonry buildings • Basics of seismic design in masonry buildings • Introduction to MSJC treatment of structural design • Strength design of reinforced and unreinforced masonry elements • Allowable-stress design of reinforced and unreinforced masonry elements • Comparison of design by the allowable-stress approach versus the strength approach • Lateral load analysis of shear wall structure • Design and detailing of floor and roof diaphragms • Structural design of AAC masonry