BRITISH STANDARDS
BS 7910:2019
Guide to methods for assessing the acceptability
of flaws in metallic structures
Supersedes BS 7910:2013+A1:2015
BS EN ISO 6892-1:2019
Metallic materials. Tensile testing. Method of test
at room temperature
Supersedes BS EN ISO 6892-1:2016
BS EN ISO 8504-1:2019
Preparation of steel substrates before application
of paints and related products. Surface
preparation methods. General principles
Supersedes BS EN ISO 8504-1:2001
BS EN ISO 15614-7:2019
Specification and qualification of welding
procedures for metallic materials. Welding
procedure test. Overlay welding
Supersedes BS EN ISO 15614-7:2016
BRITISH STANDARDS CONFIRMED
BS ISO 14347:2008
Fatigue. Design procedure for welded hollowsection
BRITISH STANDARDS WITHDRAWN
BS 7910:2013+A1:2015
Guide to methods for assessing the acceptability
of flaws in metallic structures
Superseded by BS 7910:2019
BS EN ISO 6892-1:2016
Metallic materials. Tensile testing. Method of test
at room temperature
Superseded by BS EN ISO 6892-1:2019
BS EN ISO 8504-1:2001
(BS 7079-D1:2000)
Preparation of steel substrates before application
of paints and related products. Surface
preparation methods. General principles
Also numbered BS 7079-D1:2000. Superseded by BS
EN ISO 8504-1:2019
BS EN ISO 15614-7:2016
Specification and qualification of welding
procedures for metallic materials. Welding
procedure test. Overlay welding
Superseded by BS EN ISO 15614-7:2019
28 NSC
joints. Recommendations
Mar 20
BRITISH STANDARDS UNDER REVIEW
BS EN ISO 1461:2009
Hot dip galvanized coatings on fabricated iron and
steel articles. Specifications and test methods
BS EN 1559-2:2014
Founding. Technical conditions of delivery.
Additional requirements for steel castings
BS EN ISO 9018:2015
Destructive tests on welds in metallic materials.
Tensile test on cruciform and lapped joints
BS EN 10088-1:2014
Stainless steels. List of stainless steels
BS EN 10088-2:2014
Stainless steels. Technical delivery conditions for
sheet/plate and strip of corrosion resisting steels
for general purposes
BS EN 10088-3:2014
Stainless steels. Technical delivery conditions for
semi-finished products, bars, rods, wire, sections
and bright products of corrosion resisting steels
for general purposes
BS EN ISO 23277:2015
Non-destructive testing of welds. Penetrant
testing. Acceptance levels
BS EN ISO 23278:2015
Non-destructive testing of welds. Magnetic
particle testing. Acceptance levels
BS 131-4:1972
Notched bar tests. Calibration of pendulum
impact testing machines for metals.
BS 131-6:1998
Notched bar tests. Method for precision
determination of Charpy V-notch impact energies
for metals
BS 131-7:1998
Notched bar tests. Specification for verification of
the test machine used for precision determination
of Charpy V-notch impact energies for metals
BS 2573-1:1983
Rules for the design of cranes. Specification for
classification, stress calculations and design
criteria for structures
BS 2573-2:1980
Rules for the design of cranes. Specification for
classification, stress calculations and design of
mechanisms
BS 4570:1985
Specification for fusion welding of steel castings
BS 4933:2010
Specification for ISO metric black cup and
countersunk head bolts and screws with hexagon
nuts
BS 5493:1977
Code of practice for protective coating of iron and
steel structures against corrosion
BS 5744:1979
Code of practice for safe use of cranes (overhead/
underhung travelling and goliath cranes, high
pedestal and portal jib dockside cranes, manuallyoperated
and light cranes, container handling
cranes and rail-mounted low carriage cranes)
BS 7121-2-7:2012+A1:2015
Code of practice for the safe use of cranes.
Inspection, maintenance and thorough
examination. Overhead travelling cranes,
including portal and semi-portal cranes, hoists,
and their supporting structures
BS 7608:2014+A1:2015
Guide to fatigue design and assessment of steel
products
BS ISO 9018:2015
Destructive tests on welds in metallic materials.
Tensile test on cruciform and lapped joints
NEW WORK STARTED
EN 1993-1-4:2006/A2
Eurocode 3. Design of steel structures. General
rules. Supplementary rules for stainless steels
Will supersede None
CEN EUROPEAN STANDARDS
EN ISO 15614-7:2019
Specification and qualification of welding
procedures for metallic materials. Welding
procedure test. Overlay welding
(ISO 15614-7:2016)
ISO PUBLICATIONS
ISO 11971:2020
Steel and iron castings. Visual testing of surface
quality
Will be implemented as an identical British Standard
Codes and Standards / Advisory Desk
New and revised codes & standards
From BSI Updates February 2020
AD 438: Non-slip connections to BS 5950
This AD deals with the BS 5950 provisions for
connections designed to be non-slip in service, as
described in clause 6.4.1(b).
Designers now using the Eurocodes will
be familiar with Category B, slip-resistant at
serviceability and Category C, slip-resistant at
ultimate, as set out in Table 3.2 of BS EN 1993-1-8.
In the Eurocodes, it is also clear that for
Category B connections, the design slip resistance
is compared to the serviceability loads.
Turning back to BS 5950 may led to some
uncertainty about which loads to use when
calculating slip resistance, particularly for
connections designed to be non-slip in service.
Clause 6.4.2 specifies the slip resistance PsLas:
• For connections designed to be non-slip in
service:
PsL = 1.1Ks μP0
• For connections designed to be non-slip under
factored loads:
PsL = 0.9Ks μP0
In both cases, the resistance should be
compared to the ultimate loads. This is made clear
by the note at the end of clause 6.4.1: NOTE The
resistance of a friction grip connection to slip in
service is a serviceability criterion, but for ease of
use is presented in a modified form, suitable for
checking under factored loads.
For connections which are designed to be nonslip
in service, BS 5950 does not reduce the loads,
but rather increases the calculated resistance of
the bolts (compare the 1.1 factor with 0.9 in the
above expressions) to give an equivalent result.
AD 274 gives advice on the capacity after
slipping, covered in clause 6.4.4 of BS 5950. This is
an important check for connections designed to
be non-slip in service and is designed to ensure
that if it slips, the connection does not fail at
ultimate loads.
Contact: Richard Henderson
Tel: 01344 636555
Email: advisory@steel-sci.com
/Design_codes_and_standards#Introduction_to_Eurocodes
/Preloaded_bolting
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