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CSA S16.1 : 0

Superseded
Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

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superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

LIMIT STATES DESIGN OF STEEL STRUCTURES
Available format(s)

Hardcopy , PDF

Superseded date

12-01-2001

Language(s)

English

Technical Committee on Steel Structures
Preface
1 Scope and Application
2 Definitions and Symbols
    2.1 Definitions 2.2 Symbols 2.3 Units
3 Reference Publications
4 Drawings
    4.1 Design Drawings
    4.2 Fabrication and Erection Documents
5 Material: Standards and Identification
    5.1 Standards 5.2 Identification
6 Design Requirements
    6.1 General
    6.2 Requirements Under Specified Loads
    6.3 Requirements Under Factored Loads
    6.4 Expansion and Contraction
    6.5 Corrosion Protection
7 Loads and Safety Criterion
    7.1 Specified Loads
    7.2 Safety Criterion and Effect of Factored Loads
8 Analysis of Structure
    8.1 General 8.2 Continuous Construction
    8.3 Simple Construction 8.4 Elastic Analysis
    8.5 Plastic Analysis 8.6 Stability Effects
9 Design Lengths of Members
    9.1 Simple Span Flexural Members
    9.2 Continuous Span Flexural Members
    9.3 Members in Compression
          9.3.1 General
          9.3.2 Failure Mode Involving Bending In-plane
          9.3.3 Failure Mode Involving Buckling
          9.3.4 Compression Members in Trusses
10 Slenderness Ratios
    10.1 General 10.2 Maximum Slenderness Ratio
11 Width-Thickness Ratios: Elements in Compression
    11.1 Classification of Sections
    11.2 Maximum Width-Thickness Ratios of Elements Subject
          to Compression
    11.3 Width and Thickness
12 Gross and Net Areas
    12.1 Application 12.2 Gross Area
    12.3 Effective Net Area
    12.4 Pin-connected Members in Tension
13 Member and Connection Resistance
    13.1 General 13.2 Axial Tension
    13.3 Axial Compression 13.4 Shear
    13.5 Bending - Laterally Supported Members
    13.6 Bending - Laterally Unsupported Members
    13.7 Lateral Bracing for Members in Structures
          Analysed Plastically
    13.8 Axial Compression and Bending
    13.9 Axial Tension and Bending
    13.10 Load Bearing
    13.11 Bolts in Bearing-Type Connections
    13.12 Bolts in Slip-Critical Connections
    13.13 Welds 13.14 Steel Plate Shear Walls
14 Fatigue
    14.1 General 14.2 Fatigue Limit State
    14.3 Live Load-Induced Fatigue
    14.4 Distortion-Induced Fatigue
15 Beams and Girders
    15.1 Proportioning
    15.2 Rotational Restraint at Points of Support
    15.3 Copes
    15.4 Reduced Moment Resistance of Girders with Thin
          Webs
    15.5 Flanges
    15.6 Bearing Stiffeners
    15.7 Intermediate Transverse Stiffeners
    15.8 Lateral Forces
    15.9 Web Crippling and Yielding
    15.10 Openings 15.11 Torsion
16 Open-Web Steel Joists
    16.1 Scope 16.2 General
    16.3 Definitions
    16.4 Materials
    16.5 Drawings
    16.6 Design
    16.7 Stability During Construction
    16.8 Bridging
    16.9 Decking
    16.10 Shop Painting
    16.11 Manufacturing Tolerances
    16.12 Inspection and Quality Control
    16.13 Handling and Erection
17 Composite Beams
    17.1 Application
    17.2 Definitions
    17.3 General
    17.4 Design Effective Width of Concrete
    17.5 Slab Reinforcement
    17.6 Interconnection
    17.7 Shear Connectors
    17.8 Ties
    17.9 Design of Composite Beams with Shear Connectors
    17.10 Design of Composite Beams without Shear
          Connectors
    17.11 Unshored Beams
    17.12 Beams During Construction
18 Concrete-Filled Hollow Structural Sections
    18.1 Scope
    18.2 Application
    18.3 Axial Load on Concrete
    18.4 Compressive Resistance
    18.5 Bending
    18.6 Axial Compression and Bending
19 General Requirements for Built-Up Members
    19.1 Members in Compression
    19.2 Members in Tension
    19.3 Open Box-Type Beams and Grillages
20 Stability of Structures and Members
    20.1 Structures
    20.2 Members
21 Connections
    21.1 Alignment of Members
    21.2 Unrestrained Members
    21.3 Restrained Members
    21.4 Connections of Tension or Compression Members
    21.5 Bearing Joints in Compression Members
    21.6 Lamellar Tearing
    21.7 Placement of Fasteners and Welds
    21.8 Fillers
    21.9 Welds in Combination
    21.10 Fasteners and Welds in Combination
    21.11 High-Strength Bolts (in Slip-Critical Joints)
          and Rivets in Combination
    21.12 Connections Using Bolts
    21.13 Welds
    21.14 Special Fasteners
22 Bolting Details
    22.1 High-Strength Bolts
    22.2 A307 Bolts 22.3 Effective Bearing Area
    22.4 Long Grips 22.5 Minimum Pitch
    22.6 Minimum Edge Distance 22.7 Maximum Edge Distance
    22.8 Minimum End Distance
    22.9 Slotted or Oversize Holes
23 Structural Joints Using ASTM A325M,A490M,A325 or A490 Bolts
    23.1 General 23.2 Bolts, Nuts and Washers
    23.3 Bolted Parts 23.4 Installation
    23.5 Turn-of-Nut Tightening
    23.6 Tightening by Use of a Direct Tension Indicator
    23.7 Inspection
24 Welding
    24.1 Arc Welding 24.2 Resistance Welding
    24.3 Fabricator and Erector Qualification
25 Column Bases
    25.1 Loads 25.2 Resistance 25.3 Finishing
26 Anchor Bolts
    26.1 General 26.2 Bolt Resistance
27 Seismic Design Requirements
    27.1 General 27.2 Ductile Moment-Resisting Frames
    27.3 Moment-Resisting Frames with Nominal Ductility
    27.4 Ductile Concentrically Braced Frames
    27.5 Concentrically Braced Frames with Nominal
          Ductility
    27.6 Ductile Eccentrically Braced Frames
    27.7 Special Framing Systems
28 Fabrication
    28.1 General 28.2 Straightness of Material
    28.3 Gas Cutting 28.4 Sheared or Gas-Cut Edge Finish
    28.5 Holes for bolts or Other Mechanical Fasteners
    28.6 Bolted Construction 28.7 Welded Construction
    28.8 Finishing of Bearing Surfaces 28.9 Tolerances
29 Cleaning, Surface Preparation and Priming
    29.1 General Requirements
    29.2 Requirements for Special Surfaces
    29.3 Surface Preparation 29.4 Primer
    29.5 One-Coat Paint
30 Erection
    30.1 General
    30.2 Temporary Loads
    30.3 Adequacy of Temporary Connections
    30.4 Alignment
    30.5 Surface Preparation for Field Welding
    30.6 Field Painting
    30.7 Erection Tolerances
31 Inspection
    31.1 General 31.2 Cooperation 31.3 Rejection
    31.4 Inspection of High-Strength Bolted Joints
    31.5 Third-Party Welding Inspection
    31.6 Identification of Steel by Marking
Appendices
A Standard Practice for Structural Steel
B Effective Lengths of Columns
C Criteria for Estimating Effective Column Lengths
    in Continuous Frames
D Torsional-Flexural Buckling of Compression Members
E Margins of Safety
F Columns Subject to Biaxial Bending
G Guide for Floor Vibrations
H Wind Sway Vibrations
I Recommended Maximum Values for Deflections for
    Specified Design Live and Wind Loads
J Guide to Calculation of Stability Effects
K Fatigue
L Deflections of Composite Beams Due to Concrete Shrinkage
M Design Requirements for Steel Plate Shear Walls

Refers to steel structures gives requirements for design, fabrication and erection, where the design is based on the limit states design theory. The term "steel structures" refers to structural members and frames consisting primarily of structural steel components, which include the detail parts, bolts, welds, or other fasteners that are needed in fabrication and erection. It also refers to structural steel components framed in other materials.

DevelopmentNote
Supersedes and renumbers CSA CAN3 S16.1 (07/2004) Supersedes CSA S16.1.1 (02/2008)
DocumentType
Standard
Pages
155
PublisherName
Canadian Standards Association
Status
Superseded
SupersededBy
Supersedes

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