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− | CE Marking for all [[Steel_construction_products|construction products]], covered by a harmonised European standard or conforming to a European Technical Assessment became mandatory on 1 July 2013. For [[Fabrication|fabricated]] structural steelwork, CE Marking became mandatory on 1 July 2014. This represents a major development for engineers, contractors and steelwork specialists and it demands careful attention to the new obligations imposed. | + | {{#image_template:image=File:CE_Symbol.jpg|align=left|wrap=true|width=400}} |
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| + | CE marking for all [[Steel_construction_products|construction products]], covered by a harmonised European standard or conforming to a European Technical Assessment became mandatory in the European Union (EU) on 1 July 2013. For [[Fabrication|fabricated]] structural steelwork, CE marking became mandatory in the EU on 1 July 2014. This represented a major development for engineers, contractors and steelwork specialists and demanded careful attention to the new obligations imposed by the EU Construction Products Regulation<ref name="CPR">[http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2011:088:0005:0043:EN:PDF Construction Products Regulation (EU) No. 305/2011 of the European Parliament and of the Council of 9 March 2011, Official Journal of the European Union L88/5 4.4.2011]</ref>, which was the legal basis for the new regime. |
− | This article highlights how the steel construction sector has been working behind the scenes towards achieving CE Marking. Perhaps more importantly, it spells out in detail what it will mean for the rest of the construction sector and what you need to do to comply with the Construction Products Regulation<ref name="CPR">[http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2011:088:0005:0043:EN:PDF Construction Products Regulation (EU) No. 305/2011 of the European Parliament and of the Council of 9 March 2011, Official Journal of the European Union L88/5 4.4.2011]</ref>, which is the legal basis for the new regime.
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− | <span style="color:red">Businesses in the UK are facing one of the most significant changes in decades as the UK prepares to leave the European Union (EU). Should the UK leave the EU without a deal, the government will immediately introduce UK Conformity Assessed Marking ([[UKCA Marking]]) on exit day, although the CE Marking of construction products will still be permitted for a limited time period (currently unspecified). The legislation that will make this change has already been drafted and will become UK law if the UK leaves the EU without a deal. Find out more [[UKCA Marking|here]].</span><br>
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− | |{{#youtube:width=640px|id=tKZkzNoTYdo}}
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− | |'''An introduction to CE Marking'''
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− | Published Sept. 2013, with contributions from:
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− | *Dr David Moore, Director of Engineering, BCSA
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− | *Dale Barnard, ex SHEQual & Sustainability manager, Bourne Construction Engineering Ltd.
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− | |}
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− | ==Introduction==
| + | CE marking is now familiar to most construction professionals and continues for products placed on the EU market, which includes the Republic of Ireland. However, now that the United Kingdom (UK) of Great Britain (GB) and Northern Ireland (NI) has left the EU a new system of UK Conformity Assessed marking ([[UKCA marking]]) has been introduced. |
− | {{#image_template:image=File:CE_Symbol.jpg|align=left|wrap=true|width=400}}
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− | CE Marking (originally Conformité Européenne) demonstrates compliance with the appropriate manufacturing standard for a product. As a symbol, it will be familiar as it has been a requirement for many years on products sold in the European Union such as toys and electrical goods.
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− | Under the Construction Products Regulation (CPR)<ref name="CPR"></ref>, new legal obligations have been placed on manufacturers, distributors and importers of [[Steel_construction_products|construction products]] used within the EU to CE Mark their products where they are covered by either a harmonised standard or European Technical Assessment (ETA). This applies not only to constituent products (such as [[Steel_construction_products#Standard open sections|steel beams]], [[Steel_construction_products#Fasteners and fixings|bolts]] etc) but also to [[Fabrication|fabricated]] elements and systems made from both CE Marked and non-CE marked products.
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− | In the UK, Trading Standards is the enforcement agency for non-compliance. Penalties for non-compliance include suspension notices, prohibition notices, notices to warn, and application for forfeiture. For certain offences the penalties may include a fine, imprisonment or both.
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− | The CPR<ref name="CPR"></ref> required the CE Marking of all [[Steel_construction_products|construction products]] from 1 July 2013 and the CE Marking of [[Fabrication|fabricated]] structural steelwork from 1 July 2014.
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− | The CPR<ref name="CPR"></ref> describes the legal obligations it places on the [[Construction|construction]] supply chain in terms of ‘manufacturers’, ‘distributors’ and ‘importers’. However, the [[Construction|construction]] supply chain in the UK would normally be described in terms of clients, designers, specifiers, contractors and specialist subcontractors. The purpose of this article is to provide some guidance to the UK supply chain on the implications of the CPR<ref name="CPR"></ref> on steel [[Construction|construction]].
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− | The requirements of the CPR<ref name="CPR"></ref> and CE Marking apply to construction products used on a project irrespective of whether that project was designed to National Standards (e.g. BS 5950<ref name="BS5950">BS 5950 Structural use of steelwork in building (Various Parts). BSI</ref>) or to the [[Design codes and standards#Introduction to Eurocodes|Eurocodes]].
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− | ==CE Marking of products==
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− | {{#image_template:image=File:IMG_2214.JPG|align=right|wrap=true|width=400}}
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− | Under the CPR<ref name="CPR"></ref>, all products used in [[Construction|construction]] must now have CE Marking to demonstrate compliance where either a harmonised standard or an ETA is in force. All mainstream [[Steel_construction_products|construction products]] are covered by harmonised standards and must therefore be CE Marked.
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− | For [[Fabrication|fabricated]] structural steelwork, engineers, contractors and steelwork contractors should have amended their [[Steelwork_specification|specifications]] accordingly to ensure only CE Marked products are used on their projects.
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− | Manufacturers must publish declarations of performance for their products. Tata Steel has published declarations of performance for its [https://www.tatasteelconstruction.com/en_GB/Products/structural-buildings-and-bridges/Structural-hollow-sections-hot-finished/Celsius%C2%AE-355#tab-4 Celsius® 355] and [https://www.tatasteelconstruction.com/en_GB/Products/structural-buildings-and-bridges/Structural-hollow-sections-%E2%80%93-cold-formed/Hybox%C2%AE-cold-formed-high%E2%80%93grade-hollow-sections-#tab-3 Hybox® 355] structural hollow sections, and British Steel's declarations of performance for its open section range are available [http://britishsteel.co.uk/who-we-are/approvals-certifications/declarations-of-performance/ here].
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− | ===Product standards for CE Marking ===
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− | '''[[Steel_construction_products#Standard open sections|Open sections]]''' - BS EN 10025-1<ref name="BS EN 10025-1">BS EN 10025-1: 2004, Hot rolled products of structural steels, Part 1: General technical delivery conditions, BSI</ref><br>
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− | <br>
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− | '''[[Steel_construction_products#Structural hollow sections|Hollow sections]]'''
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− | *Hot finished – BS EN 10210-1<ref name="BS EN 10210-1">BS EN 10210-1: 2006, Hot finished structural hollow sections of non-alloy and fine grain structural steels. Part 1: Technical delivery requirements. BSI</ref>
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− | *Cold formed welded –BS EN 10219-1<ref name="BS EN 10219-1">BS EN 10219-1: 2006, Cold formed welded structural sections of non-alloy and fine grain steels. Part 1: Technical delivery requirements. BSI</ref>
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− | <br>
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− | '''[[Steel_construction_products#Flat products - plates|Plates]]''' – BS EN 10025-1<ref name="BS EN 10025-1"></ref><br>
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− | <br>
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− | '''[[Steel_construction_products#Fasteners and fixings|Structural bolts]]'''
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− | *Non-preloaded structural bolting assemblies – BS EN 15048-1<ref name="BS EN 15048-1">BS EN 15048-1:2016, Non-preloaded structural bolting assemblies. General requirements, BSI</ref>
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− | *High strength structural bolting assemblies for [[Preloaded_bolting|preloading]] – BS EN 14399-1<ref name="BS EN 14399-1">BS EN 14399-1:2015, High-strength structural bolting assemblies for preloading. General requirements, BSI</ref>
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− | <br>
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− | '''[[CE_marking#CE_Marking_of_products|Fabricated structural steelwork]]''' – BS EN 1090-1<ref name="BS EN 1090-1">BS EN 1090-1:2009+A1:2011 Execution of steel structures and aluminium structures. Requirements for conformity assessment of structural components. BSI</ref>
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− | '''Note:'''
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− | #A full list of harmonised standards can be found on the EU’s [https://ec.europa.eu/growth/tools-databases/nando/ Nando website].
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− | ==CE Marking of [[Fabrication|fabricated]] structural steelwork==
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− | {{#image_template:image=File:End_plates-2.jpg|align=left|wrap=true|width=190}}
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− | The harmonised standard covering [[Fabrication|fabricated]] structural steelwork is BS EN 1090: Execution of steel structures and aluminium structures.
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− | Part 1<ref name="BS EN 1090-1"></ref> of the standard is the Requirements for Conformity Assessment of Structural Components. It describes how manufacturers can demonstrate that the '''components''' they produce meet the declared performance characteristics (the structural characteristics which make them fit for their particular use and function).
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− | Part 2<ref name="BS EN 1090-2">BS EN 1090-2:2018 Execution of steel structures and aluminium structures Technical requirements for steel structures. BSI</ref> is the Technical Requirements for Steel Structures. It specifies the requirements for the execution of steel '''structures''' to ensure adequate levels of mechanical resistance and stability, serviceability and durability. It determines the performance characteristics for components that the manufacturer must achieve and declare through the requirements of Part 1<ref name="BS EN 1090-1"></ref>.
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− | BS EN 1090-1<ref name="BS EN 1090-1"></ref> became mandatory on 1 July 2014. It is now therefore a legal requirement for all [[Fabrication|fabricated]] structural steelwork [[Fabrication#Handling and transportation|delivered to site]] to be CE Marked.
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− | The BCSA has made CE Marking compliance a condition of membership of the Association, so selection of any BCSA Member company guarantees that the steelwork contractor has the necessary certification to comply with the CPR<ref name="CPR"></ref> requirements. Clients and main contractors can therefore have [[The_case_for_steel#Quality assured at every stage|confidence]] in the complete [[The_case_for_steel#Steel construction supply chain|supply chain for steel construction]] from [[Steel_manufacture|manufacture]] of the [[Steel_construction_products#Standard open sections|steel sections]] through distribution to [[Fabrication|fabrication]] and [[Construction#Steel erection|erection]] on site.
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− | <br clear=left>
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− | ===[[Steelwork_specification|Specifications]]===
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− | Contracts for fabricated structural steelwork '''for buildings'''
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− | should include the following [[Steelwork_specification|specification]], which incorporates the obligations of BS EN 1090-1<ref name="BS EN 1090-1"></ref> and BS EN 1090-2<ref name="BS EN 1090-2"></ref> on the steelwork contractor:
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− | *[https://www.steelconstruction.org/shop/national-structural-steelwork-specification-for-building-construction-6th-edition-pdf National Structural Steelwork Specification (6th Edition), Publication No. 57/17, BCSA 2017]
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− | <br>
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− | ==Engineer’s responsibility==
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− | {{#image_template:image=File:NSCBramall0511_N6_medium.jpg|align=right|wrap=true|width=250}}
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− | For any project, the required quality of [[Fabrication|fabrication]] or Execution Class (EXC) must be specified. The procedure to determine the Execution Class has recently been changed. It must now be determined according to the requirements of Annex C of BS EN 1993-1-1<ref name="BSEN1993-1-1">BS EN 1993-1-1:2005+A1:2014, Eurocode 3: Design of steel structures. General rules and rules for buildings, BSI</ref> and its associated National Annex<ref name="UKNAtoBSEN1993-1-1">NA+A1:2014 to BS EN 1993-1-1:2005+A1:2014, UK National Annex to Eurocode 3: Design of steel structures General rules and rules for buildings, BSI</ref>. The Execution Class must be specified for:
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− | *the works as a whole
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− | *an individual component
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− | *a detail of a component
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− | <br>
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− | The engineer is responsible for specifying the Execution Class for the structure (the works as a whole), and for components and details where it is appropriate to specify an Execution Class different to that specified for the structure. Where different, the Execution Class for a component or detail should not be lower than that specified for the works as a whole. The Execution Class for a component or detail should be clearly identified in the execution specification if it is different to the Execution Class for the structure.
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− | The procedure for determining the Execution Class '''for buildings''' is a straightforward two step process:
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− | #[[#Determine the Consequences Class|Determine the Consequences Class]]
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− | #[[#Select the Execution Class|Select the Execution Class]]
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− | <br>
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− | Whilst each building needs to be considered on its own merits, Execution Class 2 (EXC2) will be appropriate for the majority of buildings constructed in the UK. If the Execution Class is not specified, clause NA.2.27.2 of the National Annex to BS EN 1993-1-1<ref name="UKNAtoBSEN1993-1-1"></ref> states that it should be assumed that the design rules in BS EN 1993<ref name="BSEN1993">BS EN 1993 Eurocode 3: Design of steel structures. (Various Parts) BSI</ref> are safe for classes up to and including Consequences Class 2.
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− | It should also be noted that the [[#Resources|NSSS for Building Construction (6th Edition)]] has been written for the steelwork contractor to deliver the requirements of EXC2.
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− | ===Determine the Consequences Class===
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− | The purpose of categorising the Consequences Class (CC) is to ensure that buildings are constructed with the appropriate level of [[Fabrication#Quality management|quality control]] within the [[Fabrication#Fabrication processes|fabrication process]]. The Consequences Class for a building is derived on the basis of building type, building height (number of storeys), floor plan area per storey (for retail) and occupancy. A structure, or a part of it, could also contain components with different Consequences Classes.
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− | Table 11 of Approved Document A<ref name="ADA">[https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/429060/BR_PDF_AD_A_2013.pdf Approved Document A (Structure) 2004 Edition incorporating 2004, 2010, and 2013 amendments. Ministry of Housing, Communities & Local Government]</ref> may be used to determine the Consequences Class for a range of building types and occupancy. In Table 11, CC2a and CC2b are subdivisions of CC2 when determining the Execution Class required for a structure.
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− | {|class="wikitable" width=80%
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− | |+Table 11 - Building Consequences Classes
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− | !width=15% style="text-align: left;"|Consequences Class
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− | !width=85% style="text-align: left;"| Building type and occupancy
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− | |1
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− | |Houses not exceeding 4 storeys. <br>
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− | Agricultural buildings. <br>
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− | Buildings into which people rarely go, provided no part of the building is closer to another building, or area where people do go, than a distance 1½ times the building height.
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− | |-
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− | |2a<br>
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− | Lower Risk Group
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− | |5 storey single occupancy houses. <br>
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− | Hotels not exceeding 4 storeys. <br>
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− | Flats, apartments and other [[Residential_and_mixed-use_buildings|residential buildings]] not exceeding 4 storeys. <br>
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− | [[Multi-storey_office_buildings|Offices]] not exceeding 4 storeys. <br>
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− | [[Single_storey_industrial_buildings|Industrial buildings]] not exceeding 3 storeys. <br>
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− | [[Retail_buildings|Retailing premises]] not exceeding 3 storeys or less than 2,000m<sup>2</sup> floor area in each storey. <br>
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− | Single storey [[Education_buildings|educational buildings]]. <br>
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− | All buildings not exceeding 2 storeys to which the public are admitted and which contain floor areas not exceeding 2,000m<sup>2</sup> at each storey.
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− | |-
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− | |2b<br>
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− | Upper Risk Group
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− | | Hotels, blocks of flats, apartments and other [[Residential_and_mixed-use_buildings|residential buildings]] greater than 4 storeys but not exceeding 15 storeys. <br>
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− | [[Education_buildings|Educational buildings]] greater than 1 storey but not exceeding 15 storeys. <br>
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− | [[Retail_buildings|Retailing premises]] greater than 3 storeys but not exceeding 15 storeys. <br>
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− | [[Healthcare_buildings|Hospitals]] not exceeding 3 storeys. <br>
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− | [[Multi-storey_office_buildings|Offices]] greater than 4 storeys but not exceeding 15 storeys. <br>
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− | All buildings to which the public are admitted and which contain floor areas exceeding 2,000m<sup>2</sup> but less than 5,000m<sup>2</sup> at each storey. <br>
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− | [[Car_parks|Car parking]] not exceeding 6 storeys.
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− | |-
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− | |3
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− | | All buildings defined above as Consequences Class 2a and 2b that exceed the limits on area and/or number of storeys. <br>
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− | [[Leisure_buildings#Stadia|Grandstands]] accommodating more than 5,000 spectators. <br>
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− | Buildings containing hazardous substances and/or processes.
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− | |}
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− | '''Notes:'''<br>
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− | #For buildings intended for more than one type of use the Consequences Class should be that pertaining to the most onerous type.
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− | #In determining the number of storeys, basement storeys may be excluded provided such basement storeys fulfil the robustness requirements of Consequences Class 2b buildings.
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− | # BS EN 1991-1-7<ref name="BS EN 1991-1-7">BS EN 1991-1-7:2006+A1:2014. Eurocode 1: Actions on structures. General actions. Accidental actions. BSI</ref> with its UK National Annex<ref name="NA to BS EN 1991-1-7">NA+A1:2014 to BS EN 1991-1-7:2006+A1:2014. UK National Annex to Eurocode 1: Actions on structures. General actions. Accidental actions. BSI</ref> also provides guidance that is comparable to Table 11.
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− | <br>
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− | As note 1 of Table 11 states, the Consequences Class for a mixed use building will be that pertaining to the most onerous occupancy type.
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− | Table 11 presents the Consequences Classes for the buildings it considers in a helpful but generic way. Where a building falls just outside the threshold of CC2 in Table 11, designers may wish to determine the Consequences Class from first principles to see if CC2 can still be applied. Section 5.4 of Approved Document A<ref name="ADA"></ref> sets out this alternative approach.
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− | ===Select the Execution Class===
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− | Having determined the Consequences Class for a building, the required Execution Class is simply derived from Table NA.4 of the National Annex to BS EN 1993-1-1<ref name="UKNAtoBSEN1993-1-1"></ref> (see below).
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− | {|class="wikitable" width=80%
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− | |+ Table NA.4 - Scope and conditions of application of execution class
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− | |-
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− | ! style="text-align:center;" colspan=2|Parts of BS EN 1993<ref name="BSEN1993"></ref> which are applicable<br>to the design of the structure<sup>1</sup>
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− | ! style="text-align:center;" |All relevant Parts except<br>Part 1-9<ref name="BS EN 1993-1-9">BS EN 1993-1-9:2005, Eurocode 3. Design of steel structures. Fatigue, BSI</ref> or Part 1-12<ref name="BSEN1993-1-12">BS EN 1993-1-12: 2007, Eurocode 3. Design of steel structures. Additional rules for the extension of EN 1993 up to steel grades S 700, BSI</ref>
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− | ! style="text-align:center;" colspan=2|All relevant Parts including<br>Part 1-9<ref name="BS EN 1993-1-9"></ref> and/or Part 1-12<ref name="BSEN1993-1-12"></ref>
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− | |-
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− | ! style="text-align:center;" rowspan=2|Other Eurocodes applicable to the design of the structure<sup>1</sup> (in addition to BS EN 1990 <ref name="BSEN1990"> BS EN 1990:2002+A1:2005. Eurocode: Basis of structural design. BSI</ref> and BS EN 1991<ref name="BSEN1991">BS EN 1991 Eurocode 1. Actions on structures. (Various Parts). BSI</ref>)
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− | | width=15% style="text-align:center;"|Required
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− | | width=20% style="text-align:center;"| -
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− | | width=20% style="text-align:center;"| -
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− | | width=20% style="text-align:center;"|BS EN 1998<ref name="BSEN1998">BS EN 1998 Eurocode 8. Design of structures for earthquake resistance. (Various Parts). BSI</ref>
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− | |-
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− | |style="text-align:center;"|Optional
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− | |style="text-align:center;"|BS EN 1994<ref name="BSEN1994">BS EN 1994 Eurocode 4: Design of composite steel and concrete structures. (Various Parts). BSI</ref>
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− | |style="text-align:center;"|BS EN 1994<ref name="BSEN1994"></ref>
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− | |style="text-align:center;"|BS EN 1994<ref name="BSEN1994"></ref>
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− | |-
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− | |style="text-align:center;" rowspan=2|Execution Classes
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− | |style="text-align:center;"|RC1, CC1<br>RC2, CC2
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− | |style="text-align:center;"|Minimum EXC2
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− | |style="text-align:center;"|Generally EXC3
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− | |style="text-align:center;"|Generally EXC3
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− | |-
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− | |style="text-align:center;"|RC3, CC3
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− | |style="text-align:center;"|EXC3
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− | |style="text-align:center;"|Minimum EXC3
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− | |style="text-align:center;"|Minimum EXC3
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− | |}
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− | '''Note:'''<br>
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− | 1. or a distinct, clearly identifiable zone of a structure.
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− | <br>
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− | For the majority of buildings constructed in the UK, EXC2 will be the appropriate requirement. If the Execution Class is not specified, clause NA.2.27.2 of the National Annex to BS EN 1993-1-1<ref name="UKNAtoBSEN1993-1-1"></ref> states that it should be assumed that the design rules in BS EN 1993<ref name="BSEN1993"></ref> are safe for classes up to and including Consequences Class 2.
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− | The engineer should always derive the Execution Class based on the design parameters appropriate to each project. The requirements to each Execution Class are listed in Table A3 of BS EN 1090-2<ref name="BS EN 1090-2"></ref> and can be reviewed by the engineer if desired.
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− | However, the engineer should avoid overspecification of the Execution Class wherever possible to avoid unnecessary [[Cost_of_structural_steelwork|costs]] being introduced. For example, EXC2 is the Execution Class derived for a project but the engineer requires full traceability (an EXC3 requirement) instead of the partial traceability requirement of EXC2. Rather than specifying EXC3 on the basis of achieving this single Clause requirement, it is suggested that EXC2 is still specified but with the higher level of traceability added to the [[Steelwork_specification|specification]].
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− | == Steelwork contractor requirements for CE Marking==
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− | {{#image_template:image=File:CE_Marking_-_Welder.jpg|align=right|wrap=true|width=350}}
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− | In order to be able to CE Mark the [[Fabrication|fabricated]] structural steelwork that they produce, steelwork contractors are required to declare performance to the System 2+ System of Assessment and Verification of Constancy of Performance (as described in Annex V of the CPR<ref name="CPR"></ref>). This requires them to undertake:
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− | *Initial type-testing of the product
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− | *Factory Production Control (FPC), which will include
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− | **implementation of FPC system procedures
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− | **appointment of a responsible [[Welding|welding]] coordinator (RWC)
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− | **implementation of [[Welding#Weld procedure specifications|welding quality management system]] (WQMS) procedures
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− | *Further testing of samples taken at the factory in accordance with the prescribed test plan
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− | <br>
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− | They must also be assessed by a notified body that will carry out:
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− | *Initial inspection of the manufacturing plant
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− | *Initial inspection of the FPC
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− | *Continuous surveillance, assessment and approval of the FPC, which will typically include:
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− | **an audit to ensure continued competence to the declared Execution Class (Table B.3 of BS EN 1090-1<ref name="BS EN 1090-1"></ref> sets out minimum levels for the routine surveillance intervals)
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− | <br>
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− | The notified body will then issue a FPC certificate and [[#What_to_check_.E2.80.93_Factory_Production_Control_and_Welding_Certificates|Welding Certificate]] identifying the Execution Class that the steelwork contractor has achieved.
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− | ==Client and/or main contractor’s responsibility==
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− | {{#image_template:image=File:Fabrication_N80_medium.jpg|align=left|wrap=true|width=225}}
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− | For all [[Fabrication|fabricated]] structural steelwork [[Fabrication#Handling and transportation|delivered to site]] there is a legal requirement under the CPR<ref name="CPR"></ref> that it is CE Marked.
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− | In order to achieve this, the client or main contractor should appoint a steelwork contractor with an Execution Class equal to that required for the project. It should be noted that steelwork contractors with EXC3 capability can be used for EXC1, 2, & 3; and a steelwork contractor with EXC2 capability can only be used for EXC1 & 2.
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− | {{#image_template:image=File:BCSA_Listing.jpg|align=right|wrap=true|width=300}}
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− | The [https://www.steelconstruction.org/member-directories/ directories for buildings and bridgeworks] on BCSA’s website include details of accredited certification levels achieved by each member. Clients and main contractors can use this to find steelwork contractors with an Execution Class equal to that required for their project.
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− | The BCSA has made CE Marking compliance a condition of membership of the Association, so selection of a BCSA Member company ensures that the steelwork contractor has the necessary accreditation to comply with the CPR<ref name="CPR"></ref> requirements.
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− | Contract documentation should also be updated to incorporate the [[#Resources|NSSS (6th Edition)]], which incorporates the obligations of BS EN 1090-1<ref name="BS EN 1090-1"></ref> and BS EN 1090-2<ref name="BS EN 1090-2"></ref> on the steelwork contractor.
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− | It should be noted that if a non-EU steelwork contractor is used on a project, the CPR<ref name="CPR"></ref> puts liability on clients and/or main contractors. In that instance, the party engaging the steelwork contractor would be classed as an importer under the CPR<ref name="CPR"></ref> and must comply with ‘Obligations of Importers’ given in Article 13 of the regulations.
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− | ==How to check compliance with the CPR and CE Marking==
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− | {{#image_template:image=File:End_plates-3.jpg|align=right|wrap=true|caption=[[Fabrication|Fabricated]] structural steelwork|wrap=true|width=500}}
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− | In order for steelwork contractors to demonstrate their right to CE Mark their products, they must provide the following three documents:
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− | #[[#What_to_check_.E2.80.93_Factory_Production_Control_and_Welding_Certificates|Factory Production Control certificate]] (FPC) – issued by a notified body
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− | #[[#What_to_check_.E2.80.93_Factory_Production_Control_and_Welding_Certificates|Welding certificate]] - issued by a notified body
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− | #[[#What_to_check_.E2.80.93_Declaration_of_Performance|Declaration of Performance]] (DoP) – issued by the steelwork contractor
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− | <br>
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− | The client or main contractor engaging the steelwork contractor should carry out due diligence before appointing them. Likewise, insurers should complete a similar due diligence process before giving Professional Indemnity insurance to steelwork contractors who want to CE Mark their products.
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− | As the BCSA has made CE Marking compliance a condition of [[Fabrication#BCSA Steelwork Contractor membership|membership]], simply selecting a BCSA Member will ensure compliance with the regulations. The client, main contractor or insurer would not need to carry out due diligence of the steelwork contractor in this case since it has already been undertaken by the BCSA as part of its [[Fabrication#BCSA Steelwork Contractor membership|membership]] audit.
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− | <br clear=right>
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− | ===What to check – Factory Production Control and [[Welding]] Certificates===
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− | #Declared performance – ensure that the steelwork contractor meets or exceeds the Execution Class requirements for the project.
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− | #Base materials – the steelwork contractor is covered for [[Welding|welding]] with material strength and [[Steel_material_properties#Toughness|subgrades]] up to and including those declared on the [[Welding]] Certificate. Ensure that these are consistent with the requirements of the project.
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− | #Date of next surveillance – check that the certificate is still current and covers the period of the contract.
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− | #Notified body number – check on the [http://ec.europa.eu/growth/tools-databases/nando/ EU’s Nando website] to ensure that it is a valid and current number associated with the notified body named on each certificate.
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− | {{#image_template:image=File:Certificates.jpg|width=800}}
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− | ===What to check – Declaration of Performance===
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− | {{#image_template:image=File:DoP.jpg|align=right|wrap=true|width=400}}
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− | The scope of the DoP to be issued by the steelwork contractor for each project is set out in Article 6 of the CPR<ref name="CPR"></ref>, with a standard form included as Annex III. The standard form in Annex III covers all aspects of the CPR<ref name="CPR"></ref>, whereas the example below suggests what would be appropriate to include when CE Marking [[Fabrication|fabricated]] structural steelwork along with some comments that might be helpful in interpreting the intent of the DoP standard form.
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− | <ol style="list-style-type: upper-latin;">
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− | <li>Steelwork contractor’s unique DoP Certificate identification number.</li>
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− | <li>Steelwork contractor defined (may be omitted if not relevant).</li>
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− | <li>Brief description of use, which may include project name and location.</li>
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− | <li> Check that notified body and level of assessment declared is consistent with the FPC and [[Welding]] Certificates where appropriate.</li>
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− | <li> Steelwork Contractors are not required to declare performance against all of the performance characteristics in Table ZA.1 of BS EN 1090-1<ref name="BS EN 1090-1"></ref>, but only those that are appropriate and for which they are responsible.</li>
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− | </ol>
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| ==References== | | ==References== |
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| ==Resources== | | ==Resources== |
| *[[Media:Steel_construction_-_CE_Marking_v4.pdf|Steel construction – CE Marking supplement, 2015]] | | *[[Media:Steel_construction_-_CE_Marking_v4.pdf|Steel construction – CE Marking supplement, 2015]] |
− | *[http://britishsteel.co.uk/media/40495/british-steel-sections-datasheets.pdf British sections product range datasheets, British Steel]
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− | *[[Media:Celsius 355 NH Technical Guide 2018.pdf|Celsius® 355 NH technical guide, Structural hollow sections. 2018, Tata Steel]]
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− | *[https://www.tatasteeleurope.com/file_source/StaticFiles/Construction/Tubes/Structural_Tubes_Publications/Hybox_UK_SP_WEB.pdf Hybox® 355 technical guide, Structural hollow sections. 2010, Tata Steel]
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− | *[http://britishsteel.co.uk/who-we-are/approvals-certifications/declarations-of-performance Declarations of Performance certificates for British Steel products]
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− | *[https://www.tatasteelconstruction.com/en_GB/services-and-downloads/Download-zone/Declarations-of-Performance/Declarations-of-Performance#Structural%20Hollow%20Sections%20Declarations%20of%20Performance Declarations of performance for Tata Steel (structural hollow section) products]
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− | *[https://www.steelconstruction.org/shop/national-structural-steelwork-specification-for-building-construction-6th-edition-pdf National Structural Steelwork Specification (6th Edition), Publication No. 57/17, BCSA 2017]
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− | *[[Media:SCI_P391.pdf|SCI P391 Structural Robustness of Steel Framed Buildings, 2011]]
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| ==See also== | | ==See also== |
| *[[Steel construction products]] | | *[[Steel construction products]] |
| *[[Fabrication]] | | *[[Fabrication]] |
− | *[[Steelwork specification]] | + | *[[UKCA marking]] |
− | *[[Specification of bridge steelwork]]
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− | *[[Steel manufacture]]
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− | *[[Structural robustness]]
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− | *[[Construction]]
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− | *[[Welding]]
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| ==External links== | | ==External links== |
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| [[Category:Fabrication]] | | [[Category:Fabrication]] |
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− | [[Category:Index of main articles]]
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