Copper cladding

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File:Harvington Parish Church - geograph.org.uk - 58078.jpg
Harvington Parish Church, with its copper-clad spire
File:Copper-clad spire at the Saïd Business School Oxford.jpg
Copper-clad spire at the Saïd Business School Oxford

There are four main techniques used today in the UK and mainland Europe for copper cladding a building:

  • Seamed-cladding (typically 0.7mm thick copper sheet on the facade): max 600mm by 4000mm 'seam centres'.
  • Shingle-cladding (typically made from 0.7mm thick copper sheet): max 600mm by 4000mm 'seam centres'.
  • Slot-in panels (typically made from 1.0mm thick copper sheet): max 350mm wide for 1.0mm, by nominal 4 mtr length.
  • Cassettes (typically made from 1.0mm up to 1.5mm thick copper sheet): largest-format cladding elements, more subframing is needed: can be 900mm x nominal 4000mm length.

When selecting size of a cladding element, take wind-loadings into account, and also consider the standard sizes available of the sheet (or coil) pre-material, to minimise material wastage through off-cuts. This helps reduce costs!

The choice of which system to use depends on the aesthetic effect required, and building geometry can also have an influence on the choice.

Copper cladding is very durable, lightweight compared to other materials and techniques, and at the end of the building life is also 100% recyclable.

Given the recent publicity about high metal prices, it may be surprising for most people to learn that copper is a very cost-effective cladding and roofing material. With good building design, materials choice and craftsmanship, copper roofing / facade cladding can be cheaper than slates or concrete tiles, especially when one takes into account the lasting colour, durability, maintenance-free and lightweight nature of the cladding.

A useful overview and further details on Copper in Architecture can be found via the Copper Development Association in the UK, or the European Copper Institute.

Because the UK code of practice for "hard metal" cladding (as opposed to lead cladding)is quite old - CP143: part 12 (1970) - the major manufacturers have to provide detailed technical advice and information for architects, designers and builders, and cultivate skilled installers with years of experience to draw on.

The typical learning curve for an installer of hard metal roofing and cladding is approximately 8-10 years before they can achieve a respectable experience on a work site.pl:Siding