Structural timber design / (Record no. 91981)

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005 - DATE AND TIME OF LATEST TRANSACTION
control field 20250820115915.0
006 - FIXED-LENGTH DATA ELEMENTS--ADDITIONAL MATERIAL CHARACTERISTICS--GENERAL INFORMATION
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007 - PHYSICAL DESCRIPTION FIXED FIELD--GENERAL INFORMATION
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008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION
fixed length control field 250820s2024 gw m o u000 0 eng d
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 9783433034040
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 9783433611593
Qualifying information electronic book
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 3433611599
Qualifying information electronic book
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 3433611580
Qualifying information electronic book
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
International Standard Book Number 9783433611586
Qualifying information (electronic bk.)
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
Cancelled/invalid ISBN 9783433034033
Qualifying information paperback
020 ## - INTERNATIONAL STANDARD BOOK NUMBER
Cancelled/invalid ISBN 3433034036
Qualifying information paperback
035 ## - SYSTEM CONTROL NUMBER
System control number (OCoLC)1427684388
041 ## - LANGUAGE CODE
Language code of text/sound track or separate title eng
050 #4 - LIBRARY OF CONGRESS CALL NUMBER
Classification number TA419
Item number .S45 2024
082 04 - DEWEY DECIMAL CLASSIFICATION NUMBER
Classification number 620.1/2
Edition number 23/eng/20240411
100 1# - MAIN ENTRY--PERSONAL NAME
Preferred name for the person Seim, Werner,
Authority record control number https://id.loc.gov/authorities/names/nb2007021981
Relator term author.
245 10 - TITLE STATEMENT
Title Structural timber design /
Statement of responsibility, etc Werner Seim.
264 #1 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT)
Place of publication, distribution, etc Berlin, Germany :
Name of publisher, distributor, etc Ernst & Sohn, a Wiley brand,
Date of publication, distribution, etc [2024]
300 ## - PHYSICAL DESCRIPTION
Extent 1 online resource.
336 ## - CONTENT TYPE
Content type term text
Content type code txt
Source rdacontent.
337 ## - MEDIA TYPE
Media type term computer
Media type code c
Source rdamedia.
338 ## - CARRIER TYPE
Carrier type term online resource
Carrier type code cr
Source rdacarrier.
340 ## - PHYSICAL MEDIUM
Source rdacc
Authority record control number or standard number http://rdaregistry.info/termList/RDAColourContent/1003.
505 0# - CONTENTS
Formatted contents note Table of Contents<br/>List of Fact Sheets xi<br/><br/>Preface xiii<br/><br/>About the Author xv<br/><br/>Symbols and Abbreviations xvii<br/><br/>1 Timber as a Structural Material 1<br/><br/>1.1 Building with Timber: Advantages and Challenges 1<br/><br/>1.2 Mechanical Properties of Solid Timber 2<br/><br/>1.2.1 Influence of the Fibre Direction 3<br/><br/>1.2.2 Strength Values of Solid Timber 3<br/><br/>1.2.3 Deformation Properties of Solid Timber 5<br/><br/>1.2.4 Influence of Load Duration and Humidity 8<br/><br/>1.3 Wood-based Products 10<br/><br/>1.3.1 Solid Structural Timber and Glued Solid Timber 10<br/><br/>1.3.2 Glued Laminated Timber 11<br/><br/>1.3.3 Cross-laminated Timber 13<br/><br/>1.4 Wood-based Materials 14<br/><br/>1.4.1 Laminated Veneer Lumber 14<br/><br/>1.4.2 Plywood 14<br/><br/>1.4.3 Oriented Strand Boards 15<br/><br/>1.4.4 Particle Boards 15<br/><br/>1.4.5 Fibreboards 16<br/><br/>References 17<br/><br/>Standards and Technical Building Regulations 17<br/><br/>2 Structural Design of Beam-type Members 19<br/><br/>2.1 Basics of Structural Design 19<br/><br/>2.1.1 Action Combinations 21<br/><br/>2.1.2 Modification Factors and Deformation Factors 22<br/><br/>2.2 Bending 23<br/><br/>2.3 Shear 25<br/><br/>2.4 Torsion and Rolling Shear 26<br/><br/>2.5 Buckling 27<br/><br/>2.5.1 Lateral Flexural Buckling: k c Method 29<br/><br/>2.5.2 Lateral Torsional Buckling: k m Method 32<br/><br/>2.5.3 Torsional Flexural Buckling 38<br/><br/>2.5.4 Calculation According to the Second-Order Theory 39<br/><br/>2.6 Tension and Bending 40<br/><br/>2.7 Serviceability Limit State 41<br/><br/>2.7.1 Deformations 41<br/><br/>2.7.2 Vibrations 43<br/><br/>References 44<br/><br/>Standards and Technical Building Regulations 44<br/><br/>3 Stresses Perpendicular to the Grain 45<br/><br/>3.1 Introduction 45<br/><br/>3.2 Compression 45<br/><br/>3.2.1 Compression Perpendicular to the Grain 45<br/><br/>3.2.2 Compression Stresses at an Angle to the Grain 48<br/><br/>3.3 Tension Perpendicular to Grain 51<br/><br/>3.3.1 Overview 51<br/><br/>3.3.2 Notches 52<br/><br/>3.3.3 Tension-Loaded Connections Perpendicular to the Grain 54<br/><br/>3.3.4 Holes in Glulam Beams 57<br/><br/>Reference 59<br/><br/>4 Dowel-type Connections 61<br/><br/>4.1 Introduction 61<br/><br/>4.2 Connections with Dowel-type Fasteners 62<br/><br/>4.2.1 Overview 62<br/><br/>4.2.2 Deformation Behaviour 62<br/><br/>4.2.3 Basics of the Calculation of Shear-Loaded Connections 65<br/><br/>4.2.4 Shear-Loaded Timber–Timber Connections 68<br/><br/>4.2.5 Shear-Loaded Timber–Timber Connections: Simplified Calculation 71<br/><br/>4.2.6 Shear-Loaded Steel–Timber Connections 71<br/><br/>4.2.7 Shear-Loaded Steel–Timber Connections: Simplified Calculation 74<br/><br/>4.3 Dowels and Bolts 75<br/><br/>4.4 Nails and Staples 77<br/><br/>4.4.1 Overview 77<br/><br/>4.4.2 Construction Rules for Connections with Nails 81<br/><br/>4.4.3 Construction Rules for Staples 84<br/><br/>4.4.4 Load-Bearing Capacity 86<br/><br/>4.5 Connections with Screws 89<br/><br/>4.5.1 Overview 89<br/><br/>4.5.2 Conceptual Design of Connections with Screws 90<br/><br/>4.5.3 Load-Bearing Capacity 93<br/><br/>4.5.4 Application Examples and Execution 96<br/><br/>4.6 Block Shear 97<br/><br/>4.7 Reinforcement of Dowelled Connections 99<br/><br/>4.8 Connections with Cross-laminated Timber (CLT) 101<br/><br/>References 104<br/><br/>Standards and Technical Building Regulations 105<br/><br/>5 Other types of connections 107<br/><br/>5.1 Shear Connectors 107<br/><br/>5.1.1 Mechanism 107<br/><br/>5.1.2 Connector Types and Construction Rules 107<br/><br/>5.1.3 Load-Bearing Capacity 112<br/><br/>5.2 Carpentry Connections 116<br/><br/>5.2.1 Overview 116<br/><br/>5.2.2 Halving Joints 121<br/><br/>5.2.3 Step Joints 124<br/><br/>5.2.4 Mortise and Tenon 127<br/><br/>5.2.5 Deformations: Slip Moduli 130<br/><br/>5.3 Hinged and Moment-Resistant Connections 131<br/><br/>5.3.1 Structural Detailing and Calculation Modelling 131<br/><br/>5.3.2 Method of Sections 136<br/><br/>5.4 Adhesive-Bonded Connections 139<br/><br/>5.4.1 Overview 139<br/><br/>5.4.2 Adhesive Bonding of Structural Elements 141<br/><br/>5.4.3 Connections and Repair 145<br/><br/>5.5 Reinforcement Against Tension Forces Perpendicular to the Grain 148<br/><br/>5.5.1 Notches 148<br/><br/>5.5.2 Connections Perpendicular to the Grain 151<br/><br/>5.5.3 Holes in Glulam Beams 152<br/><br/>References 154<br/><br/>Standards and Technical Building Regulations 155<br/><br/>6 Structural Elements: Beam-Type Members 157<br/><br/>6.1 Glulam Beams 157<br/><br/>6.1.1 Bending Stresses 159<br/><br/>6.1.2 Tension Stresses Perpendicular to the Grain 166<br/><br/>6.2 Trusses 170<br/><br/>6.3 Composite Elements 172<br/><br/>6.3.1 Beams, Slab and Roof Elements 172<br/><br/>6.3.1.1 Application of the γ-method 172<br/><br/>6.3.1.2 Thin-webbed Beams: Single Web and Box type 176<br/><br/>6.3.1.3 Thin-flanged Beam: Effective Width 178<br/><br/>6.3.1.4 Box-Type Section with Interlayer 181<br/><br/>6.3.2 Timber–concrete Composites (TCC) 182<br/><br/>6.3.3 Columns 187<br/><br/>6.3.3.1 Overview 187<br/><br/>6.3.3.2 Spaced Columns with Continuously Connected Shafts 189<br/><br/>6.3.3.3 Spaced Columns with Packs and Gussets 190<br/><br/>6.3.3.4 Lattice Columns with Glued or Nailed Joints 192<br/><br/>6.4 Bracing: Design and Detailing 192<br/><br/>6.4.1 Overview 192<br/><br/>6.4.2 Roof Structures 195<br/><br/>6.4.3 Beams and Columns 198<br/><br/>6.5 Modelling of Beam-Type Elements 206<br/><br/>References 208<br/><br/>Standards and Technical Building Regulations 208<br/><br/>Product Information (Examples) 209<br/><br/>7 Structural Elements – Plane 211<br/><br/>7.1 Light-frame Elements 211<br/><br/>7.1.1 Overview 211<br/><br/>7.1.2 Wall Elements 213<br/><br/>7.1.3 Slab Elements – Diaphragms 216<br/><br/>7.1.4 Connections and Anchoring 218<br/><br/>7.2 Cross-laminated Timber (CLT) 220<br/><br/>7.2.1 Production, Load-bearing Characteristics and Strength 220<br/><br/>7.2.2 Plates 224<br/><br/>7.2.2.1 Bending and Shear Stiffness 224<br/><br/>7.2.2.2 Uniaxial Load Bearing 227<br/><br/>7.2.2.3 Biaxial Load Bearing 229<br/><br/>7.2.2.4 Single Loads 229<br/><br/>7.2.2.5 Deflections 232<br/><br/>7.2.3 Wall Panels 233<br/><br/>7.2.3.1 In-plane Stiffness 233<br/><br/>7.2.3.2 In-plane Shear 234<br/><br/>7.2.3.3 Axial and Combined Stresses 235<br/><br/>7.2.4 Detailing and Load Transfer 237<br/><br/>7.3 Modelling of Plane Elements 240<br/><br/>7.3.1 CLT Plates 240<br/><br/>7.3.2 Shear Walls 241<br/><br/>7.3.2.1 Light-frame Wall Elements 241<br/><br/>7.3.2.2 CLT Wall Elements 243<br/><br/>7.4 Interaction of Diaphragms and Bracing Walls 244<br/><br/>References 247<br/><br/>Product Information (Examples) 248<br/><br/>8 Dynamic Behaviour of Timber Structures 249<br/><br/>8.1 Dynamics and Vibration 249<br/><br/>8.1.1 Structures Under Dynamic Impact 249<br/><br/>8.1.2 Natural Frequencies of Simple Systems 252<br/><br/>8.2 Vibration of Slabs 256<br/><br/>8.3 Structures Under Earthquake Impact 259<br/><br/>8.3.1 Earthquake Impact and Energy Dissipation 260<br/><br/>8.3.2 Conceptual Design and Calculation 263<br/><br/>8.3.2.1 Force-based Approach (Lateral Force Method) 266<br/><br/>8.3.2.2 Performance-based Design (Non-linear Static Analysis) 266<br/><br/>8.3.2.3 Response History Analysis (Non-linear Dynamic Analysis) 267<br/><br/>8.3.3 Response Spectra Procedure – Equivalent Load 267<br/><br/>8.3.4 Verification of Wall and Slab Elements 278<br/><br/>References 281<br/><br/>Standards and Technical Building Regulations 282<br/><br/>9 Durability and Fire Protection 283<br/><br/>9.1 Durability 283<br/><br/>9.1.1 Overview 283<br/><br/>9.1.2 Durability of Wood Species 286<br/><br/>9.1.3 Constructive Measures Against Biological Attack 286<br/><br/>9.1.4 Encapsulated Construction 290<br/><br/>9.1.5 Wood Treatment 291<br/><br/>9.2 Resistance to Corrosion 293<br/><br/>9.3 Fire Protection 294<br/><br/>9.3.1 Overview 294<br/><br/>9.3.2 Terminology and Legal Regulations 295<br/><br/>9.3.3 Building Classes 296<br/><br/>9.3.4 Classification and Requirements for Structural Elements and Materials 297<br/><br/>9.4 Calculation of Fire Resistance Time 300<br/><br/>9.4.1 Effective Cross section Method 300<br/><br/>9.4.2 Connections 303<br/><br/>References 305<br/><br/>Standards and Technical Building Regulations 305<br/><br/>10 Conceptual Design 307<br/><br/>10.1 Multi-storey Timber Buildings 307<br/><br/>10.1.1 Overview 307<br/><br/>10.1.2 Design Criteria 307<br/><br/>10.2 Roof Structures 311<br/><br/>10.2.1 Overview 311<br/><br/>10.2.2 Criteria for Conceptual Design 312<br/><br/>10.2.3 Primary and Secondary Load-bearing Elements 315<br/><br/>10.2.4 Beams and Columns 316<br/><br/>10.2.5 Arches, Cables and Domes 318<br/><br/>10.3 Bridges 322<br/><br/>10.3.1 Overview 322<br/><br/>10.3.2 Design Criteria 325<br/><br/>10.3.3 Actions 331<br/><br/>10.3.4 Load Transfer 333<br/><br/>10.3.5 Maintenance 335<br/><br/>References 336<br/><br/>Standards and Technical Building Regulations 338<br/><br/>11 Supplementary Theoretical Background 341<br/><br/>11.1 Strength and Size Effect 341<br/><br/>11.2 Fracture Mechanics: Brittle Failure 344<br/><br/>11.2.1 B- and D-regions 344<br/><br/>11.2.2 Linear-elastic Fracture Mechanics: Energy-based Fracture Criterion 345<br/><br/>11.2.3 Application of Fracture Mechanics 349<br/><br/>11.3 Theory of Plasticity 350<br/><br/>11.3.1 Overview 350<br/><br/>11.3.2 Application of the Upper Bound Theorem 351<br/><br/>11.3.3 Application of the Lower Bound Theorem 352<br/><br/>11.3.4 Capacity Design 353<br/><br/>11.4 Calculation Methods for Composite Beams: γ-procedure 353<br/><br/>11.5 Volkersen’s Theory for Adhesive Bonded Connections 358<br/><br/>11.6 Calculation According to Second-order Theory 361<br/><br/>References 365<br/><br/>Index 367
545 0# - BIOGRAPHICAL OR HISTORICAL DATA
Biographical or historical note About the Author<br/>Werner Seim is a professor for Timber Engineering and Building Rehabilitation at the University of Kassel, Germany, and also an engineer with more than 35 years of experience in design and assessment of timber structures. He holds a Civil Engineering Degree from the University of Stuttgart, received his PhD in 1994 at the Karlsruhe Institute for Technology KIT and conducted postdoctoral studies 1998 at the University of California UCSD, San Diego. His research is focussed on bracing systems for high-rise buildings, timber-concrete-composites and re-use of structures. He is member of several national and international scientific committees. He was invited as a Visiting Professor to UBC Vancouver, EPF Lausanne and FCBA Bordeaux. His commitment to teaching was rewarded in 2020 with the Hessian State Prize.
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM
Topical term or geographic name as entry element Timber
Authority record control number https://id.loc.gov/authorities/subjects/sh85135386
General subdivision Design and construction.
Authority record control number https://id.loc.gov/authorities/subjects/sh2002006372.
655 #4 - INDEX TERM--GENRE/FORM
Genre/form data or focus term Electronic books.
856 40 - ELECTRONIC LOCATION AND ACCESS
Uniform Resource Identifier https://onlinelibrary.wiley.com/doi/book/10.1002/9783433611593
Link text Full text is available at Wiley Online Library Click here to view
942 ## - ADDED ENTRY ELEMENTS
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Item type EBOOK

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