|
|
|
|
| LEADER |
00000nam a2200000 i 4500 |
| 001 |
MGH_AEACE20071501 |
| 003 |
IN-ChSCO |
| 005 |
20200716130058.0 |
| 006 |
m||||||||||||||||| |
| 007 |
cr |n||||||||n |
| 008 |
200716s2020||||nyu|||||o|||||||||||eng|| |
| 010 |
|
|
|a 2020934154
|
| 020 |
|
|
|a 9781260115994 (e-ISBN)
|
| 020 |
|
|
|a 1260115992 (e-ISBN)
|
| 020 |
|
|
|a 9781260115987 (print-ISBN)
|
| 020 |
|
|
|a 1260115984 (print-ISBN)
|
| 035 |
|
|
|a (OCoLC)1162800817 (print ed.)
|
| 040 |
|
|
|a IN-ChSCO
|b eng
|e rda
|
| 041 |
0 |
|
|a eng
|
| 050 |
|
4 |
|a TA635
|
| 072 |
|
7 |
|a TEC
|x 009020
|2 bisacsh
|
| 082 |
0 |
4 |
|a 624.1
|2 23
|
| 245 |
0 |
0 |
|a Structural Engineering Handbook, Fifth Edition /
|c Mustafa Mahamid, Edwin H. Gaylord, Charles N. Gaylord.
|
| 250 |
|
|
|a 5th edition.
|
| 264 |
|
1 |
|a New York, N.Y. :
|b McGraw-Hill Education,
|c [2020].
|
| 264 |
|
4 |
|c ?2020.
|
| 300 |
|
|
|a 1 online resource (957 pages) :
|b 400 illustrations.
|
| 336 |
|
|
|a text
|2 rdacontent
|
| 337 |
|
|
|a computer
|2 rdamedia
|
| 338 |
|
|
|a online resource
|2 rdacarrier
|
| 504 |
|
|
|a Includes bibliographical references and index.
|
| 505 |
0 |
|
|a Cover --
|t Title Page --
|t Copyright Page --
|t About the Editors --
|t Contents --
|t Contributors --
|t Preface --
|t Chapter 1. Structural Loads Mustafa Mahamid, David A. Fanella --
|t 1.1 Introduction --
|t 1.2 Dead Loads --
|t 1.3 Live Loads --
|t 1.4 Rain Loads --
|t 1.5 Soil Lateral Loads --
|t 1.6 Snow and Ice Loads --
|t 1.7 Wind Loads --
|t 1.8 Earthquake Loads --
|t 1.9 Flood and Tsunami Loads --
|t 1.10 Load Combinations --
|t References --
|t Chapter 2. Structural Analysis Aly M. Said, Anas S. Issa, M. Shahria Alam --
|t PART A FUNDAMENTALS AND APPLICATIONS TO STRUCTURAL FRAMEWORKS --
|t PART B ARCHES AND RIGID FRAMES --
|t References --
|t Chapter 3. The Finite-Element Method Craig D. Foster, Sheng-Wei Chi --
|t 3.1 Overview of Theory of Finite-Element Analysis --
|t 3.2 Outline of Steps in a Finite-Element Analysis --
|t 3.3 Types of Structural and Mechanical Analyses --
|t 3.4 Elements and Nodes --
|t 3.5 Meshing --
|t 3.6 Applying Loads and Displacement Boundary Conditions --
|t 3.7 Material Models and Other Properties --
|t 3.8 Solving the Quasi-Static Problem --
|t 3.9 Postprocessing?Solving for Strain, Stress, and Other Quantities --
|t 3.10 Dynamic Finite-Element Analysis --
|t 3.11 Nonlinear Finite-Element Analysis --
|t 3.12 Verification and Validation --
|t 3.13 Issues and Pitfalls in Finite-Element Analysis --
|t 3.14 Introduction to Finite Elements for Thermal, Thermomechanical, and Other Problems --
|t References --
|t Chapter 4. Computer Applications in Structural Engineering Raoul Karp, Bulent N. Alemdar, Sam Rubenzer --
|t 4.1 Introduction --
|t 4.2 Computer Structural Analysis Simulation --
|t 4.3 Structural Finite Elements --
|t 4.4 Foundations --
|t 4.5 Verifying Analysis Results --
|t 4.6 Building Information Modeling and Interoperability --
|t 4.7 Summary --
|t References --
|t Chapter 5. Earthquake-Resistant Design S. K. Ghosh --
|t 5.1 Overview --
|t 5.2 Nature of Earthquake Motion --
|t 5.3 Design Philosophy --
|t 5.4 Seismic Design Requirements of the 2018 IBC/ASCE 7-16 --
|t References --
|t Chapter 6. Fracture and Fatigue Kedar S. Kirane, Zdenek P. Ba?ant, J. Ernesto Indacochea, Vineeth Kumar Gattu --
|t PART A CONCRETE AND COMPOSITES --
|t PART B STRUCTURAL STEELS --
|t Chapter 7. Soil Mechanics and Foundations Joseph W. Schulenberg, Krishna R. Reddy --
|t 7.1 Soil Behavior --
|t 7.2 Shallow Foundation Analyses --
|t 7.3 Deep Foundations --
|t 7.4 Retaining Structures --
|t 7.5 Investigations --
|t 7.6 Soil Improvement --
|t 7.7 Monitoring --
|t References --
|t Chapter 8. Design of Structural Steel Members Jay Shen, Bulent Akbas, Onur Seker, Charlies J. Carter --
|t 8.1 Design of Steel and Composite Members --
|t 8.2 Seismic Design of Steel Members in Moment and Braced Frames --
|t 8.3 Concluding Remarks --
|t References --
|t Chapter 9. Design of Cold-Formed Steel Structural Members Nabil A. Rahman, Helen Chen, Cheng Yu --
|t 9.1 Shapes and Applications --
|t 9.2 Materials --
|t 9.3 Corrosion Protection --
|t 9.4 Member Design Methodology --
|t 9.5 Structural Stability in Determining Member Forces --
|t 9.6 Member Design --
|t 9.7 Assemblies and Systems --
|t 9.8 Connections --
|t References --
|t Chapter 10. Aluminum Structural Design J. Randolph Kissell --
|t 10.1 Introduction --
|t 10.2 Design Overview --
|t 10.3 Determining Required Forces --
|t 10.4 Axial Tension --
|t 10.5 Axial Compression --
|t 10.6 Flexure --
|t 10.7 Shear and Torsion --
|t 10.8 Combined Forces --
|t 10.9 Connections --
|t 10.10 Serviceability --
|t 10.11 Fabrication and Erection --
|t 10.12 Fatigue --
|t References --
|t Chapter 11. Design of Reinforced-Concrete Structural Members Mustafa Mahamid, David A. Fanella --
|t 11.1 Concrete --
|t 11.2 Reinforcement --
|t 11.3 Specifications, Codes, and Standards --
|t 11.4 General Requirements for Strength and Serviceability --
|t 11.5 General Principles of the Strength Design Method --
|t 11.6 General Principles and Requirements --
|t 11.7 One-Way Slabs, Two-Way Slabs, and Beams --
|t 11.8 Columns --
|t 11.9 Tension Members --
|t 11.10 Members Subjected to Flexure and Axial Load --
|t 11.11 Walls --
|t 11.12 Footings --
|t 11.13 Two-Way Slab Systems --
|t 11.14 Seismic --
|t References --
|t Chapter 12. Design of Prestressed-Concrete Structural Members Sri Sritharan, Maryam Nazari --
|t Notation --
|t References --
|t Chapter 13. Masonry Construction Richard Bennett, Sam Rubenzer --
|t Notation --
|t References --
|t Chapter 14. Timber Structures Thomas Williamson, Mustafa Mahamid --
|t 14.1 Wood as an Engineering Material --
|t 14.2 Allowable Stress Design (ASD) vs. Load and Resistance Factor Design (LRFD) --
|t 14.3 Structural Wood Products --
|t 14.4 Member Design --
|t 14.5 Connection Design --
|t 14.6 Lateral Load Resistance --
|t References --
|t Chapter 15. Bridge Engineering Soliman Khudeira, Tony Shkurti, Eric Stone, James Carter III, Jamshid Mohammadi, Bora Jang --
|t PART A STEEL AND CONCRETE BRIDGES --
|t PART B STEEL BOX-GIRDER BRIDGES --
|t PART C CURVED STEEL I-GIRDER BRIDGES --
|t PART D CURVED STEEL BOX-GIRDER BRIDGES --
|t PART E CURVED CONCRETE BOX-GIRDER BRIDGES --
|t Chapter 16. Railroad Bridge Design Mohsen Issa, Ahmad Hammad --
|t 16.1 Introduction --
|t 16.2 General Requirements --
|t 16.3 Loading --
|t 16.4 Timber --
|t 16.5 Steel --
|t 16.6 Concrete --
|t References --
|t Chapter 17. Industrial Buildings Jules Van de Pas, John Rolfes --
|t 17.1 Planning Industrial Buildings --
|t 17.2 Code Requirements and Industrial Loads --
|t 17.3 Framing Systems --
|t References --
|t Chapter 18. Tall Buildings Charles Besjak, Brian McElhatten, Preetam Biswas --
|t 18.1 Definition of Tall Building --
|t 18.2 General Design Considerations --
|t 18.3 Structural Design Considerations --
|t 18.4 Serviceability Considerations --
|t 18.5 Structural Systems for Tall Buildings --
|t 18.6 System Conceptualization --
|t 18.7 System Parameters and Choices --
|t 18.8 Analysis Parameters and Techniques --
|t 18.9 Performance-Based Design for Wind --
|t 18.10 Performance-Based Design for Seismic --
|t 18.11 Creep and Shrinkage --
|t 18.12 High-Rise Building Glossary --
|t 18.13 Additional Credits --
|t Acknowledgments --
|t References --
|t Chapter 19. Thin-Shell Concrete Structures Edmond Saliklis, Mustafa Mahamid, David P. Billington, Julian A. Dumitrescu --
|t 19.1 Introduction and Historical Overview --
|t 19.2 Shells of Rotation --
|t 19.3 Domes --
|t 19.4 Cylindrical Barrel Shells --
|t 19.5 Folded Plates --
|t 19.6 Translation Shells of Double Curvature --
|t 19.7 Dimensioning --
|t 19.8 Stability and Safety --
|t 19.9 Construction --
|t 19.10 Appearance --
|t References --
|t Chapter 20. Cable-Supported Roofs Paul A. Gossen, Keith M. MacBain --
|t 20.1 Introduction --
|t 20.2 Cable Materials and Construction --
|t 20.3 Structural Systems --
|t 20.4 Dynamics --
|t 20.5 Analysis and Design --
|t 20.6 Erection --
|t References --
|t Chapter 21. Reinforced-Concrete Silos Ramez B. Gayed, Mustafa Mahamid, Amin Ghali --
|t 21.1 General --
|t 21.2 Design of Walls --
|t 21.3 Design of Bottoms --
|t References --
|t Chapter 22. Design of Steel Tanks Leslie D. Scott --
|t 22.1 Introduction --
|t 22.2 Design Considerations --
|t 22.3 Design of Reservoirs and Standpipes --
|t 22.4 Elevated Tanks --
|t 22.5 Accessories --
|t 22.6 Materials --
|t 22.7 Commercially Available Computer Programs --
|t 22.8 The Engineer?s Role --
|t References --
|t Chapter 23. Electrical Transmission and Substation Structures Michael D. Miller, Robert E. Nickerson --
|t 23.1 Introduction --
|t 23.2 Referenced Standards and Manuals of Practice --
|t 23.3 Transmission Line Structures --
|t 23.4 Substation Structures --
|t References --
|t Chapter 24. Chimneys Shu-Jin Fang, Victor Bochicchio --
|t 24.1 Introduction --
|t 24.2 Design Loads --
|t 24.3 Steel Stacks --
|t 24.4 Reinforced-Concrete Chimneys --
|t 24.5 Liners and Linings --
|t 24.6 Foundations --
|t References --
|t Chapter 25.
|
| 505 |
0 |
|
|t Health Monitoring and Nondestructive Testing Didem Ozevin, Farhad Ansari --
|t 25.1 Introduction --
|t 25.2 Components of NDE Methods --
|t 25.3 Waveform-Based NDE Methods and Applications --
|t 25.4 The Applications of Waveform-Based NDE Methods to Infrastructure Systems --
|t References --
|t Chapter 26. Building Information Modeling (BIM) for Structural Engineering Nawari O. Nawari --
|t 26.1 Introduction --
|t 26.2 BIM Fundamentals --
|t 26.3 BIM Processes in Practice --
|t 26.4 Structure and Architecture Synergy (SAS) Framework --
|t 26.5 Conclusions --
|t References --
|t Chapter 27. Structural Fire Engineering V. K. R. Kodur, M. Z. Naser --
|t 27.1 General --
|t 27.2 Designing Structures for Fire Safety --
|t 27.3 Fire Growth and Development --
|t 27.4 Properties of Construction Materials at Elevated Temperatures --
|t 27.5 Fire Resistance Evaluation --
|t 27.6 Prescriptive-Based Approaches --
|t 27.7 Rational Design Approaches --
|t 27.8 Summary --
|t References --
|t Chapter 28. Disproportionate Collapse and Blast-Resistant Design Shalva Marjanishvili, Robert Smilowitz --
|t PART A STRUCTURAL ROBUSTNESS AND DISPROPORTIONATE COLLAPSE --
|t PART B BLAST-RESISTANT DESIGN --
|t Chapter 29. FRP Strengthening of Reinforced-Concrete Members Hayder A. Rasheed --
|t 29.1 FRP Properties for Strengthening Applications --
|t 29.2 Flexural Strengthening Design for Beams and Slabs --
|t 29.3 Shear Strengthening Design for Beams --
|t 29.4 Confinement Strengthening Design for Circular Columns --
|t References --
|t Chapter 30. Structural Glass and Glazing Rui de S. Camposinhos --
|t 30.1 Introduction --
|t 30.2 Glass: Production and Properties --
|t 30.3 Glass as a Structural Material --
|t 30.4 Actions --
|t 30.5 Codes and Standards --
|t 30.6 Plate Buckling --
|t 30.7 Lateral-Torsional Buckling --
|t 30.8 Glass Columns --
|t References --
|t Chapter 31. Machine Foundations O. Salem Ali --
|t 31.1 Background --
|t 31.2 Classification of Machine Based on Machine Type --
|t 31.3 Classification of Machine Based on Type of Excitation Force --
|t 31.4 Classification of Machine Based on Foundation Type --
|t 31.5 Classification of Machine Load Transfer Mechanism --
|t 31.6 Design Limits for Machine Foundations --
|t 31.7 Effect of the Supporting Soil --
|t 31.8 Energy Transfer Mechanism --
|t 31.9 Effect of Embedment of Foundation --
|t 31.10 Reduction in Permissible Soil Stress --
|t 31.11 Damping in Soil --
|t 31.12 Modeling Techniques for Machine Foundations --
|t 31.13 Block-Type Foundation --
|t 31.14 Mat Foundations --
|t 31.15 Elevated Machine Foundation --
|t 31.16 Three-Dimensional Finite-Element Modeling --
|t 31.17 Soil Modeling --
|t 31.18 Current Approach of Soil Modeling --
|t 31.19 Methods to Compute Dynamic Impedance Functions --
|t 31.20 Foundations Supported on Piles --
|t 31.21 Piles Subjected to Lateral Vibrations --
|t 31.22 Elastic Continuum --
|t 31.23 Piles Subjected to Vertical Vibrations --
|t 31.24 Pile Group Effect --
|t References --
|t Chapter 32. Value Methodology Muthiah Kasi, Charles A. Bartlett --
|t 32.1 Introduction --
|t 32.2 VM Job Plan --
|t 32.3 The Key Features of VM Job Plan: Function Analysis --
|t 32.4 Example 1: Parapet Joint Detail --
|t 32.5 Evaluation Phase --
|t 32.6 Implementation --
|t 32.7 Summary --
|t References --
|t Chapter 33. Stone Cladding Rui de S. Camposinhos --
|t 33.1 Introduction: Natural Stone Cladding --
|t 33.2 Natural Stone Depiction --
|t 33.3 Mechanical Properties --
|t 33.4 Cladding Systems and Methods --
|t 33.5 Limit States Design --
|t 33.6 Dowel Anchorage --
|t 33.7 Kerf Anchorage --
|t 33.8 Undercut Anchorage --
|t References --
|t Index.
|
| 530 |
|
|
|a Also available in print edition.
|
| 533 |
|
|
|a Electronic reproduction.
|b New York, N.Y. :
|c McGraw Hill,
|d 2020.
|n Mode of access: World Wide Web.
|n System requirements: Web browser.
|n Access may be restricted to users at subscribing institutions.
|
| 538 |
|
|
|a Mode of access: Internet via World Wide Web.
|
| 546 |
|
|
|a In English.
|
| 588 |
|
|
|a Description based on e-Publication PDF.
|
| 650 |
|
0 |
|a Structural engineering
|v Handbooks, manuals, etc.
|
| 650 |
|
0 |
|a Structural engineering.
|
| 650 |
|
0 |
|a Tragwerk.
|
| 650 |
|
7 |
|a TECHNOLOGY & ENGINEERING / Civil / General
|2 bisacsh.
|
| 655 |
|
0 |
|a Electronic books.
|
| 700 |
1 |
|
|a Mahamid, Mustafa,
|e editor.
|
| 700 |
1 |
|
|a Gaylord, Edwin H.,
|e editor.
|
| 700 |
1 |
|
|a Gaylord, Charles N.,
|e editor.
|
| 776 |
0 |
|
|i Print version:
|t Structural Engineering Handbook, Fifth Edition,
|d New York, N.Y. : McGraw-Hill Education, [2020].
|z 9781260115987
|
| 856 |
4 |
0 |
|u https://accessengineeringlibrary.uam.elogim.com/content/book/9781260115987
|z Texto completo
|
