Structural Design A Practical Guide for Architects 2nd Edition by James Underwood, Michele Chiuini ISBN ‎ 0471789046 ‎ 978-0471789048

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ISBN 10: ‎ 0471789046
ISBN 13: ‎ 978-0471789048
Author: James Underwood, Michele Chiuini

Written for the practicing architect, Structural Design addresses the process on both a conceptual and a mathematical level. Most importantly, it helps architects work with structural consultants and understand all the necessary considerations when designing structural systems. Using a minimum of simple math, this book shows you how to make correct design calculations for structures made from steel, wood, concrete, and masonry. What?s more, this edition has been completely updated to reflect the latest design methods and codes, including LRFD for steel design. The book was also re-designed for easy navigation. Essential principles, as well as structural solutions, are visually reinforced with hundreds of drawings, photographs, and other illustrations–making this book truly architect-friendly.

Structural Design A Practical Guide for Architects 2nd Table of contents:

Chapter 1: Introduction: Understanding Loads

LOADS

How Are Loads Determined?

Gravity Loads

TRIBUTARY AREAS

LATERAL LOADS–WIND AND EARTHQUAKES

Structural Systems for Lateral Loads

LATERAL LOADS: WIND

Wind Design Criteria

LATERAL LOADS: EARTHQUAKE

Earthquake-Resistant Construction

Earthquake Design–Equivalent Lateral Force Procedure

Base Shear Force Distribution

LOADING CONDITIONS

Chapter 2: Load and Resistance Factor Design

LOAD COMBINATIONS

RESISTANCE FACTORS

WORKING STRESSES VERSUS LRFD DESIGN

ELASTIC SECTION MODULUS AND PLASTIC SECTION MODULUS

SHAPE FACTOR

Part ONE: STEEL

Chapter 3: Materials and Properties

STRUCTURAL PROPERTIES OF STEEL

ALLOWABLE STRESS

YIELD STRESS

STANDARD SHAPES

FIRE CONSIDERATIONS

SURFACE FINISHES

Chapter 4: Structural Elements and Systems

MEMBER TYPES

Beams

Columns

Tension Members

Bending + Compression or Tension

SYSTEM SELECTION

Spatial Requirements

LOW-RISE FRAME SYSTEMS

Material Utilized and Its Relative Cost as a System

Fabrication of Members

Erection of the System

Miscellaneous Considerations

MEDIUM- AND HIGH-RISE SYSTEMS

ARCHITECTURAL CONSIDERATIONS

Section 1: Steel Bending Systems

Chapter 5: Preengineered Systems

OPEN-WEB STEEL JOIST

Bridging

STEEL DECKS

Chapter 6: Steel Beams

BEAM THEORY

BEAMS IN STRUCTURAL SYSTEMS

LRFD Beam Design

Chapter 7: Lateral Stability of Beams

CONDITIONS OF STABILITY

Chapter 8: Supports

BEARING PLATES FOR BEAMS AND COLUMNS

DESIGN OF BEARING PLATES

COLUMN BASE PLATES

DESIGN OF COLUMN BASE PLATES

Chapter 9: Web Yielding and Crippling

LOCALIZED FAILURE OF COMPONENTS

Chapter 10: Built-Up Beams

BUILT-UP SECTIONS

CONNECTION AND LENGTH OF COVER PLATES

HOLES IN THE WEB AND IN THE FLANGES

Section 2: Steel Axially Loaded Systems

Chapter 11: Columns

COLUMN THEORY

BUILT-UP COLUMNS

Design

COLUMNS WITH UNEQUAL UNBRACED LENGTHS

Chapter 12: Tension Members

TYPES OF TENSION MEMBERS

BASIC DESIGN

CONNECTION OF TENSION MEMBERS

SUSPENSION STRUCTURES

Section 3: Steel Combined Systems

Chapter 13: Combined Axial Loading and Bending

BASIC CONSIDERATIONS AND PROCEDURE

SLOPING BEAMS

Chapter 14: Trusses

GENERAL COMMENTS

DESIGN CONSIDERATIONS

TRUSS ANALYSIS

Section 4: Steel Connections

Chapter 15: Bolted Connections

ENGINEERING PRINCIPLES

TYPES OF BOLTED CONNECTIONS

BOLTS

DESIGN OF CONNECTIONS

Chapter 16: Welded Connections

WELDING AND TYPES OF WELDED JOINTS

STRESSES IN WELDS

MINIMUM AND MAXIMUM WELD CONSIDERATIONS

FRAMED BEAM CONNECTIONS

Part TWO: WOOD

Chapter 17: Materials and Properties

PHYSICAL PROPERTIES

DENSITY AND WEIGHT OF WOOD

PROTECTION FROM DECAY AND FIRE

DESIGN VALUES

SIZE CLASSIFICATIONS

ADJUSTMENT FACTORS

ENGINEERED WOOD PRODUCTS

Chapter 18: Wood Structures in Architecture

CONSTRUCTION AND ARCHITECTURAL PHILOSOPHIES

THE ARCHITECT’S RESPONSIBILITY IN STRUCTURAL WOOD DESIGN

SELECTION AND CONFIGURATION OF WOOD SYSTEMS

FRAMING SYSTEMS

Traditional Light Framing

Post-and-Beam Systems

LONG-SPAN SYSTEMS

Axial Load and Bending in Roof Systems

Frames and Arches

BRACING

Diaphragms and Shear Walls

Diagonal Bracing

Diagonal or Cross-bracing

Rigid-Frame System

Section 1: Wood Bending Systems

Chapter 19: Bending Members: Floor and Roof Systems

FLOOR FRAMING

JOIST DESIGN

ADJUSTMENT FACTORS

ENGINEERED JOISTS

I Joists

Trussed Joists

Structural Composite Lumber

SUBFLOORS

FIRE PROTECTION AND SOUND INSULATION

ROOF CONSTRUCTION

BEARING AND STRESS CONCENTRATION

NOTCHED BENDING MEMBERS

Chapter 20: Sheathing and Diaphragm Design

DIAPHRAGM CONSTRUCTION

SHEAR WALLS

COMPOSITE BENDING MEMBERS

PLYWOOD STRUCTURAL PROPERTIES

BOX BEAM DESIGN

Chapter 21: Timber and Laminated Timber Beams

TIMBER BEAMS

BUILT-UP BEAMS

LAMINATED TIMBER BEAMS

DESIGN OF LAMINATED TIMBER BEAMS

TYPES OF STRUCTURES USING GLULAM

Section 2: Wood Axially Loaded Members

Chapter 22: Compression and Tension Members

TYPES OF COMPRESSION AND TENSION MEMBERS

DESIGN PROCEDURE FOR SOLID COLUMNS

BUILT-UP AND SPACED COLUMN DESIGN

TENSION MEMBERS

AXIAL COMPRESSION AND BENDING

AXIAL TENSION AND BENDING

Section 3: Wood Combined Systems

Chapter 23: Timber Truss Design

TRUSS TYPES

DEFLECTION AND CAMBER

GENERAL DESIGN PROCEDURE

Preliminary Design

Final Design

Chapter 24: Arches, Vaults, and Domes

TWO- AND THREE-HINGED ARCHES

PRELIMINARY DESIGN OF LAMINATED TIMBER ARCHES

CONSTRUCTION OF TIMBER ARCHES

DOMES AND VAULTED ROOFS

Section 4: Wood Connections

Chapter 25: Connections

CONNECTING WOOD MEMBERS

NAILS AND SPIKES

Adjustment Factors and Design Values

ADHESIVES

Synthetic Thermoset

Synthetic Thermoplastic

GLUE LINE STRESSES: ROLLING SHEAR

BOLTS

LAG SCREWS

WOOD SCREWS

SPLIT RING AND SHEAR PLATE CONNECTORS

DESIGN OF SHEAR PLATE AND SPLIT RING CONNECTIONS

Section 5: Wood Special Systems

Chapter 26: Permanent Wood Foundations

TYPES OF WOOD FOUNDATIONS

PERMANENT WOOD FOUNDATION

DESIGN OF FOOTING FOUNDATIONS

BASEMENT WALLS

Part THREE: REINFORCED CONCRETE (R/C)

Chapter 27: Materials and Properties

STRUCTURAL CONCRETE MATERIALS

Cement

Water

Aggregate

Admixtures

STRUCTURAL CONCRETE PROPERTIES

Workability

Weight

Strength

Creep

Fire Resistance

Shrinkage

Hardness

Porosity

Durability

REINFORCING STEEL

Tensile Strength for Bending Members

Resistance to Shrinkage Stresses

Ductility (Mode of Failure)

FIBER-REINFORCED CONCRETE

PLACEMENT OF CONCRETE

Vibrating

Screeding

Floating

Darbying

Troweling

Curing

Finishing

Chapter 28: Reinforced Concrete in Architecture

STRUCTURAL FORMS

STRUCTURAL DESIGN ISSUES

SYSTEM SELECTION

Section 1: R/C Bending Members

Chapter 29: Beam Strength Theory

STRESS AND STRAIN IN FLEXURE MEMBERS

BEAM DESIGN FORMULA

Chapter 30: Beam Design

DESIGN FOR BENDING MOMENT

R/C Beam Design Procedure

DEVELOPMENT OF REINFORCEMENT

Chapter 31: Shear in Beams

SHEAR STRENGTH OF CONCRETE

DESIGN OF SHEAR REINFORCEMENT

Chapter 32: Slabs

FLAT SPANNING SYSTEMS

One-Way Spanning

Two-Way Spanning

Slabs Without Beams

FLAT SLAB DESIGN

SLAB ON GRADE

COMPOSITE SECTIONS

Chapter 33: Deflection

CREEP AND DEFLECTION

DEFLECTION COMPUTATIONS

Chapter 34: Footings

FOUNDATION DESIGN CRITERIA

FOOTINGS

DESIGN PROCEDURE FOR FOOTINGS

PERIPHERAL SHEAR

RECTANGULAR FOOTINGS

SIMPLE WALL FOOTINGS

Section 2: R/C Axially Loaded Members

Chapter 35: Columns

CONSTRUCTION OF R/C COLUMNS

DESIGN METHOD

Chapter 36: Walls

CONCRETE WALL TYPES

DESIGN REQUIREMENTS FOR VERTICAL LOADS

Loads and Stability

Bearing Strength

Minimum Reinforcement

Placement of Bars

WALLS DESIGNED AS COMPRESSION MEMBERS

HORIZONTAL FORCES ON WALLS BELOW GRADE

RETAINING WALLS

Backfill and Drainage

SHEAR WALLS

Section 3: R/C Connections

Chapter 37: Connections

CONNECTIONS OF FOOTINGS AND VERTICAL STRUCTURE

ANCHORS

BEARING PRESSURES

CONCRETE SUPPORTS

Section 4: R/C Special Systems

Chapter 38: Prestressed and Precast Concrete

PRESTRESSED CONCRETE

CONSTRUCTION TECHNIQUES

Prestressed Concrete

Posttensioned Concrete

PRECAST CONCRETE SHAPES

Part FOUR: MASONRY

Chapter 39: Materials and Properties

MASONRY UNITS

MORTAR AND GROUT

MORTAR STRENGTH

CONSTRUCTION

Joints

Grout

DESIGN REQUIREMENTS

Solid Walls

Cavity Walls

EXPANSION/CONTROL JOINTS AND REINFORCING

Anchorage

FLASHING

Chapter 40: Structural Systems

MASONRY CONSTRUCTION

SYSTEM SELECTION

MASONRY SYSTEMS

Section 1: Masonry Axially Loaded Members

Chapter 41: Empirical Design of Walls

LIMITATIONS OF EMPIRICAL DESIGN

WORKING STRESS

LATERAL STABILITY AND SHEAR WALLS

UNSUPPORTED HEIGHT OR LENGTH

WALL THICKNESS

Chapter 42: Allowable Stress Method

UNREINFORCED MASONRY

BEARING AND CONCENTRATED LOADS

DESIGN OF SHEAR WALLS

Unreinforced Shear Walls

Reinforced Shear Walls

REINFORCED WALLS

COLUMN AND PILASTER CONSTRUCTION

COLUMN DESIGN

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