BS 5400-2:1978
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
View Superseded by
Steel, concrete and composite bridges Specification for loads
Hardcopy , PDF
29-09-2006
English
30-06-1978
Important note : All end users must be registered with an Account prior to user licenses being assigned.
Foreword
Cooperating organizations
Specification
1. Scope
1.1 Documents comprising this British Standard
1.2 Loads and factors specified in this Part of
BS 5400
1.3 Wind and temperature
2. References
3. Principles, definitions and symbols
3.1 Principles
3.2 Definitions
3.2.1 Loads
3.2.2 Dead load
3.2.3 Superimposed dead load
3.2.4 Live loads
3.2.5 Adverse and relieving areas and effects
3.2.6 Total effects
3.2.7 Dispersal
3.2.8 Distribution
3.2.9 Highway carriageway and lanes
3.2.10 Bridge components
3.3 Symbols
4. Loads: general
4.1 Loads and factors specified
4.1.1 Nominal loads
4.1.2 Design loads
4.1.3 Additional factor gamma f3
4.1.4 Fatigue loads
4.1.5 Deflection and camber
4.2 Loads to be considered
4.3 Classification of loads
4.3.1 Permanent loads
4.3.2 Transient loads
4.4 Combinations of loads
4.4.1 Combination 1
4.4.2 Combination 2
4.4.3 Combination 3
4.4.4 Combination 4
4.4.5 Combination 5
4.5 Application of loads
4.5.1 Selection to cause most adverse effect
4.5.2 Removal of superimposed dead load
4.5.3 Live load
4.5.4 Wind on relieving areas
4.6 Overturning
4.6.1 Restoring moment
4.6.2 Removal of loads
4.7 Foundation pressures, sliding on foundations,
loads on piles, etc.
4.7.1 Design loads to be considered with CP 2004
5. Loads applicable to all bridges
5.1 Dead load
5.1.1 Nominal dead load
5.1.2 Design load
5.2 Superimposed dead load
5.2.1 Nominal superimposed dead load
5.2.2 Design load
5.3 Wind load
5.3.1 General
5.3.2 Wind gust speed
5.3.3 Nominal transverse wind load
5.3.4 Nominal longitudinal wind load
5.3.5 Nominal vertical wind load
5.3.6 Load combination
5.3.7 Design loads
5.3.8 Overturning effects
5.3.9 Aerodynamic effects
5.4 Temperature
5.4.1 General
5.4.2 Minimum and maximum shade air temperatures
5.4.3 Minimum and maximum effective bridge temperatures
5.4.4 Range of effective bridge temperature
5.4.5 Temperature difference
5.4.6 Coefficient of thermal expansion
5.4.7 Nominal values
5.4.8 Design values
5.5 Effects of shrinkage and creep, residual stresses,
etc.
5.6 Differential settlement
5.6.1 Assessment of differential settlement
5.6.2 Load factors
5.7 Exceptional loads
5.7.1 Snow loads
5.7.2 Design loads
5.8 Earth pressure on retaining structures
5.8.1 Filling material
5.8.2 Live load surcharge
5.9 Erection loads
5.9.1 Temporary loads
5.9.2 Permanent loads
5.9.3 Disposition of permanent and temporary loads
5.9.4 Wind and temperature effects
5.9.5 Snow and ice loads
6. Highway bridge live loads
6.1 General
6.1.1 Loads to be considered
6.1.2 Notional lanes, hard shoulders, etc.
6.1.3 Distribution analysis of structure
6.2 Type HA loading
6.2.1 Nominal uniformly distributed load (UDL)
6.2.2 Nominal knife edge load (KEL)
6.2.3 Distribution
6.2.4 Dispersal
6.2.5 Single nominal wheel load alternative to UDL and
KEL
6.2.6 Dispersal
6.2.7 Design HA loading
6.3 Type HB loading
6.3.1 Nominal HB loading
6.3.2 Contact area
6.3.3 Dispersal
6.3.4 Design HB loading
6.4 Application of types HA and HB loading
6.4.1 Type HA loading
6.4.2 Types HB and HA loading combined
6.4.3 Highway loading on transverse cantilever slabs,
slabs supported on all four sides, centre reserves
and outer verges
6.5 Centrifugal load
6.5.1 Nominal centrifugal load
6.5.2 Associated nominal primary live load
6.5.3 Load combination
6.5.4 Design load
6.6 Longitudinal load
6.6.1 Nominal load for type HA
6.6.2 Nominal load for type HB
6.6.3 Associated nominal primary live load
6.6.4 Load combination
6.6.5 Design load
6.7 Accidental load due to skidding
6.7.1 Nominal load
6.7.2 Associated nominal primary live load
6.7.3 Load combination
6.7.4 Design load
6.8 Loads due to vehicle collision with parapets
6.8.1 Nominal load
6.8.2 Associated nominal primary live load
6.8.3 Load combination
6.8.4 Design load
6.9 Collision loads on supports of bridges over
highways
6.9.1 Nominal load
6.9.2 Associated nominal primary live load
6.9.3 Load combination
6.9.4 Design load
6.9.5 Bridges over railways, canals or navigable water
6.10 Loading for fatigue investigations
6.11 Dynamic loading on highway bridges
7. Footway and cycle track live load
7.1 Bridges supporting footway or cycle tracks only
7.1.1 Nominal live load
7.1.2 Nominal load on pedestrian parapets
7.1.3 Design load
7.1.4 Collision load on supports of foot/cycle track
bridges
7.1.5 Vibration serviceability
7.2 Elements supporting footways or cycle tracks and
a highway or railway
7.2.1 Nominal live load
7.2.2 Nominal wheel load
7.2.3 Associated nominal primary live load
7.2.4 Load due to vehicle collision with parapets
7.2.5 Design load
8. Railway bridge live load
8.1 General
8.2 Nominal loads
8.2.1 Type RU loading
8.2.2 Type RL loading
8.2.3 Dynamic effects
8.2.4 Dispersal of concentrated loads
8.2.5 Deck plates and similar local elements
8.2.6 Application of standard loadings
8.2.7 Lurching
8.2.8 Nosing
8.2.9 Centrifugal load
8.2.10 Longitudinal loads
8.3 Load combinations
8.4 Design loads
8.5 Derailment loads
8.5.1 Design load for RU loading
8.5.2 Design load for RL loading
8.6 Collision load on supports of bridges over
railways
8.7 Loading for fatigue investigations
Numerous appendices
Numerous tables
Numerous figures
Specifies nominal loads and their application and partial safety factors which are to be used in deriving design loads for highway, railway and foot/cycle track bridges in the UK.
| Committee |
B/525/10
|
| DevelopmentNote |
Supersedes BS 153-3A(1972) & 73/13234 DC (08/2004)
|
| DocumentType |
Standard
|
| Pages |
70
|
| PublisherName |
British Standards Institution
|
| Status |
Superseded
|
| SupersededBy | |
| Supersedes |
| BS 7818:1995 | Specification for pedestrian restraint systems in metal |
| BS 5400-4:1984 | Steel, concrete and composite bridges Code of practice for design of concrete bridges |
| BS 6779-3:1994 | Highway parapets for bridges and other structures Specification for vehicle containment parapets of combined metal and concrete construction |
| BS 6349-2:1988 | Maritime structures Design of quay walls, jetties and dolphins |
| BS 5400-3:2000 | Steel, concrete and composite bridges Code of practice for design of steel bridges |
| BS 5400-5:2005 | STEEL, CONCRETE AND COMPOSITE BRIDGES - PART 5: CODE OF PRACTICE FOR THE DESIGN OF COMPOSITE BRIDGES |
| PD 6634-4:1999 | Vehicle restraint systems Development of bridge parapets in the United Kingdom |
| BS 5400-9.1(1983) : 1983 | STEEL, CONCRETE AND COMPOSITE BRIDGES - PART 9: BRIDGE BEARINGS - SECTION 9.1: CODE OF PRACTICE FOR DESIGN OF BRIDGE BEARINGS |
| BS ISO 18649:2004 | Mechanical vibration. Evaluation of measurement results from dynamic tests and investigations on bridges |
| BS 5973:1990 | Code of practice for access and working scaffolds and special scaffold structures in steel |
| BS 6779-1:1989 | Highway parapets for bridges and other structures Specification for parapets of metal construction |
| BS 6399-1:1996 | LOADING FOR BUILDINGS - PART 1: CODE OF PRACTICE FOR DEAD AND IMPOSED LOADS |
| BS 5973:1993 | Code of practice for access and working scaffolds and special scaffold structures in steel |
| BS 6349-1:2000 | Maritime structures Code of practice for general criteria |
| BS 6779-1:1998 | Highway parapets for bridges and other structures Specification for vehicle containment parapets of metal construction |
| BS 6779-1:1992 | Highway parapets for bridges and other structures Specification for vehicle containment parapets of metal construction |
| BS 8002:1994 | Code of practice for earth retaining structures |
| BS 5400-9.2:1983 | STEEL, CONCRETE AND COMPOSITE BRIDGES - BRIDGE BEARINGS - SPECIFICATION FOR MATERIALS, MANUFACTURE AND INSTALLATION OF BRIDGE BEARINGS |
| BS 6779-4:1999 | Highway parapets for bridges and other structures Specification for parapets of reinforced and unreinforced masonry construction |
| BS 5400-5:1979 | Steel, concrete and composite bridges Code of practice for design of composite bridges |
| BS 6779-2:1991 | Highway parapets for bridges and other structures Specification for vehicle containment parapets of concrete construction |
| BS 6349-1:1984 | Maritime structures General criteria |
| BS 8005-1:1987 | Sewerage Guide to new sewerage construction |
| DD ENV 1991-2.4 : 1997 | EUROCODE 1: BASIS OF DESIGN AND ACTIONS ON STRUCTURES - PART 2-4: ACTIONS ON STRUCTURES - WIND ACTIONS (TOGETHER WITH UNITED KINGDOM NATIONAL APPLICATION DOCUMENT) |
| BS 5400-1:1978 | Steel, concrete and composite bridges General statement |
| BS 6779-1:1987 | Parapets for vehicle containment on highways. Specification for parapets of metal contruction |
| ISO 18649:2004 | Mechanical vibration Evaluation of measurement results from dynamic tests and investigations on bridges |
| BS 5400-4:1990 | Steel, concrete and composite bridges Code of practice for design of concrete bridges |
| BS 5400-1:1988 | STEEL, CONCRETE AND COMPOSITE BRIDGES - GENERAL STATEMENT |
| BS CP2004(1972) : AMD 1755 | CODE OF PRACTICE FOR FOUNDATIONS |
Access your standards online with a subscription
Features
-
Simple online access to standards, technical information and regulations.
-
Critical updates of standards and customisable alerts and notifications.
-
Multi-user online standards collection: secure, flexible and cost effective.