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EPD
Certificate type
EPD
Certificate type
REACTION TO FIRE - CLASSIFICATION REPORT EUI-22-000041
Certificate type
NedZink produces titanium zinc in accordance with EN 988, an alloy based on electrolytically refined zinc with a purity of min. 99.995% Zn (EN 1179) with small additions of copper and titanium
NedZink Zinc Standing Seam Façade Cladding is designed for use as an external wall cladding system, offering a durable, weather-resistant, and visually distinctive architectural finish. It is suitable for both new-build and refurbishment projects across residential, commercial, and public buildings. The system provides excellent design flexibility, allowing vertical, horizontal or diagonal installation on flat or curved surfaces. Its long lifespan, low maintenance requirements and natural patina development make it ideal for achieving a contemporary or traditional aesthetic while ensuring long-term performance in various environmental conditions.
NedZink produces titanium zinc in accordance with EN 988, an alloy based on electrolytically refined zinc with a purity of min. 99.995% Zn (Z1 in accordance with EN 1179) with small additions of the alloy elements copper, titanium and aluminium. NedZink titanium zinc is characterized by high durability and excellent deformation properties, and is extremely weather resistant, durable and maintenance-free. NedZink Titanium zinc is sold under the brand names NedZink NATURAL, NedZink NEO, NedZink NOIR, NedZink NUANCE and NedZink Pro-Tec
NedZink Zinc Standing Seam Façade Cladding is designed for use as an external wall cladding system, offering a durable, weather-resistant, and visually distinctive architectural finish. It is suitable for both new-build and refurbishment projects across residential, commercial and public buildings. The system provides excellent flexibility in design, allowing vertical, horizontal or diagonal installation on flat or curved surfaces. Its long lifespan and low maintenance are excellent.
NedZink Standing seam / Angle Seam for use in Fully Supported Façades and Interior Applications. The single locked standing seam is formed by interlocking the sides of adjoining panels by single welting the top of the upstand of the seam. The final fold is turned parallel to the cladding surface. This means it is less watertight than the double lock standing seam. The angled standing seam is used for vertical cladding where a more defined visual line is required and is not recommended for slopes below 35°.
NedZink standing seam panels can be custom fabricated to suit each project. Panels can typically span from base to parapet on façades, allowing for continuous, seamless coverage without the need for horizontal joints. The system can accommodate short panels where necessary due to handling or transportation limits, maintaining a consistent appearance and functional integrity of the façade. The maximum recommended length is 4m on vertical and 6m on horizontal.
The standard width of standing seam panels is 430mm and 530mm, though standing seam panels offer significant flexibility in panel width, making them adaptable to a wide range of architectural designs. The visible panel width can typically vary between 100mm and 600mm, depending on project requirements and aesthetic preferences. This flexibility allows designers and contractors to achieve different visual rhythms on façades, creating narrow, sleek lines for a contemporary look.
The height of a standing seam panel refers to the vertical distance of the raised interlocking rib that connects adjacent panels. Typically, standing seam height is 25mm, but 38mm seam height is possible on request.
Typical system build up:
Installation:
A list of recommended installers is available on request.
Email: rinoj@metalsolutions.uk.com
Color | Silver Grey Red Blue Green |
Material | Zinc |
Shape | Rectangle Other |
Length | Bespoke |
Width | Bespoke |
Height | Bespoke |
Warranty description | 50 year Guidance for specification option: 50 years if installed by an approved Nedzink NQ I installer 30 years if installed by a non-approved installer |
Uniclass | |
CAWS | H74/150 Zinc sheet fully supported covering to dormers H74/130 Zinc sheet fully supported wall covering H74/5 Zinc sheet fully supported covering to dormers |
SKU Code | • ZN-SS-FAC-0.8-NAT → Zinc Standing Seam Facade, 0.8 mm, Natural finish • ZN-SS-FAC-0.7-NAT → Zinc Standing Seam Facade, 0.7 mm, Natural finish • ZN-SS- FAC-0.7-NEO → Zinc Standing Seam Façade, 0.7 mm, Neo Grey • ZN-SS- FAC-0.8-NEO → Zinc Standing Seam Facade, 0.8 mm, Neo Grey • ZN-SS- FAC-0.7-NOR → Zinc Standing Seam Facade, 0.7 mm, NOR Black • ZN-SS- FAC-0.8-NOR → Zinc Standing Seam Facade, 0.8 mm, NOR Black • ZN-SS- FAC-0.7-NUA → Zinc Standing Seam Facade, 0.7 mm, NUA Color |
Classification data | |
Membrane | Breather membrane. Manufacturer guidanceThe breather membrane must comply with EN 13859-1 for roofs and EN 13859-2 for walls and must also be CE compliant. The breather membrane must be fully supported, lapped and sealed and then further sealed to all surrounding abutments and surface penetrations. |
Insulation | Manufacturer guidanceTraditional standing seam systems do not have any specific requirement with regard to the insulation. Insulation must be structurally self-supporting or supported when installed so that it will not sag and form unvented voids or cause loss of thermal efficiency. An insulation used as a directly supporting substrate must have a minimum compression strength of 50kPa (0.5 kg/cm2) with deformation limited to a maximum of 10%. The insulation must also be dimensionally stable up to 100°C. All insulation must be kept dry and protected prior to metal covering being laid. |
Air and vapour control layer | Alutrix 600 / Metal Shield Guidance for specification option: A compatible Primer to be used on porous substrates. Some manufacturer's recommendations for warm cladding or roof constructions require a minimum of 5 screw fixings per M2 through the VB, therefore this type of VB must have the properties of self-sealing around screw fixings when penetrated. In this instance, it is accepted that a VB with an aluminium foil face and a polymer bitumen core and self-adhesive properties offers the best performance. Alutrix & Metal Shield comply with this requirement. Manufacturer guidanceVapour Barrier membranes must comply with EN 13859-1 for walls or roofs and must also be CE compliant. For fully supported metal cladding or roofs, the VB must have a minimum water vapour resistance of 4000MNs/g and comply to BS SO 12572. The VB must have a resistance against a supported column of water 2M high for a period of 15 mins to comply with DIN EN 20811. All cladding or roofs must have a Vapour Barrier regardless of being ventilated, unventilated cold or warm in design. The VB must be positioned behind/ below the insulation and on the warm side of the construction. |
Carrier | As design. |
Substrate | 18 mm plywood exterior grade. Guidance for specification option: The European Standard is EN 636-3 - for use in exterior conditions including liquid, water or water vapour in damp but ventilated locations. Service Class 3 in Euro Code 5 covers plywood to be used in climate conditions leading to a higher moisture content than in service class 2. The minimum board thickness must be 18 mm (or layers of thinner boards that combine to achieve the minimum 18 mm thickness for curved coverings). The plywood face laminate must be free of knots and defects and should as a minimum be "good one side". Shuttering ply is not suitable. 18 mm OSB-3 or better (oriented strand board). Guidance for specification option: Also known as sterling board, has been developed over the past 20 years and is formed by layered flakes of wood in specific orientation. Its wooden strips are compressed and bonded together with wax and resin adhesive. It is comparatively cost effective and therefore has been increasingly used as a substrate for cladding or roofing systems. However, care must be exercised when used as a substrate under traditional metal cladding or roofing and should be protected from moisture during construction. It is advised that screw fixings are used to ensure good pull-out values. 24 mm timber or sarking board decking. Guidance for specification option: It complies with 8S5268: Part 2 (strength class SC3), or EN 1611-1:1999 (sawn timber normally with a maximum moisture content of 22%). There are some woods which are not compatible with cladding or roofing metals, due to high acid content. UK recommended practice is a range of 18 mm to 25 mm thickness, in widths of 100 mm to 125 mm and laid with 3–5 mm gaps between the boards parallel to the eaves. In some cases, because of the nature of the building's structure, a diagonal boarding layout is used. It is particularly important to note that timber protectives, preservatives and adhesives used in plywood board construction can react with the cladding or roofing metal and if applicable, suitable separation layers must be used. Rigid insulation. Guidance for specification option: Insulation must be structurally self-supporting or supported when installed so that it will not sag and form unvented voids or cause loss of thermal efficiency. An insulation used as a directly supporting substrate must have a minimum compression strength of 50 kPa (0.5 kg/cm²) with deformation limited to a maximum of 10%. The insulation must also be dimensionally stable up to 100C. Warm cladding or roof fixings including stainless toothed plate and sliding clip, plastic peg and fixing screws are used in conjunction with an insulated deck. Composite panel. Guidance for specification option: The composite panel is constructed from factory produced interlocking steel or aluminium panels, encasing an insulation core (PIR or other). The panels are laid across the wall or roof supporting rafters or rails. The interlocking joints must be sealed with gaskets or sealant and taped according to the manufacturer's recommendations, with sealed metal closures to hips ridges, verges, eaves and penetrations. The total area and abutments must be sealed airtight. 0.7 mm thick outer face is recommended. This type of construction gives a good vapour sealed substrate and can be quickly constructed. Non-combustibles. Guidance for specification option: Alternative non-combustible supporting substrates, such as metal profiled sheets and fire rated sheathing boards are now commonplace due to changes in building regulations. These are a direct substitute for plywood or similar and should be evaluated based on their pull-out values. When a metal profiled sheet is used, fixings must be rivets or self-drilling screws. |
Cavity barriers | |
Horizontal | To architects’ specification. Insert accordingly. |
Vertical | To architects’ specification. Insert accordingly. |
Sheet underlay | |
Material | ISO-Mat Pro® underlay. Guidance for specification option: Recommended for wall or cold roof applications. Envirotect Class B-s1,d0 fire membrane. Guidance for specification option: Can be used when a non-combustible option is required. |
Fasteners | 25 mm fixed clips, RFC-25, breather membrane. 38 mm fixed clips, SM-EFK-38, breather membrane. 25 mm sliding clips, RSC-25, breather membrane. 38 mm sliding clips, SM-ESE-38, breather membrane. |
Zinc sheet | NedZink produces titanium zinc in accordance with EN 988, an alloy based on electrolytically refined zinc with a purity of min. 99.995% Zn (Z1 in accordance with EN 1179) with small additions of the alloy elements copper, titanium and Aluminium. 0.7 or 0.8 mm thickness. |
Vertical joints | |
Form | Single lock cross welt 18 mm. |
Fasteners to substrate | Timber - stainless screw, SPT-R-S-4.3x20-RS. Timber - annular ringshank nail, RSN-SS25. Metal - stainless screw, SX2-D9-4.8x22. Metal - stainless screw, DS3-SS-SF-4.8x16. |
System accessories | Manufacturer guidanceAll associated flashings to match can be fabricated from coil by Metal Solutions Ltd as per typical details and industry standards. Associated rainwater goods in various sizes and profiles are available in the same material. Consult manufacturer for details and insert requirements. |
Colour/ Finish: | Natural. Neo. Noir. Nuance Red. Nuance Blue. Nuance Green. Nuance Brown. |
Size and profile | Manufacturer guidanceOptimised panel widths are based on available coil widths (some colours will vary): 530 mm wide (although 430 mm centres is often advised for aesthetics) Narrower widths are also available. Panel lengths are often limited to 3 metres long, although longer lengths may be considered. Consult manufacturer and insert requirements. |
Weight | 0.7 mm material weight 5.04 kg /m². 0.8 mm material weight 5.76 kg /m². Guidance for specification option: System weight dependent on seam centres. |
Fire classification | Reaction to fire: A1 To EN 13501:2002 External Fire Performance: Class BROOF (EN 13501-5 (2000/553/EC)). |
Contains Red List materials | No |
Country of material origin | Netherlands |
Country of product manufacture | United Kingdom |
Material | Zinc |
| Carbon dioxide equivalent | |
Carbon dioxide equivalent, as defined in BS EN 15804 Certified | |
Stage Normalised unit (kg CO₂ eq/kg) Declared unit (kg CO₂ eq/kg) Stage:A1–A3 ('Production stage') Normalised unit : 3.09 (kg CO₂ eq/kg) Declared unit : 3.09 | |
Recyclability | 100% |
Recycled contentAs defined in clause 7.8 of BS EN ISO 14021 | 17 % |
Expected Life | Lifetime Guidance for specification option: NedZink titanium zinc protects a building for up to 150 years. An environmental product declaration with ECO platform label for NedZink NATUREL, NedZink NEO and NedZink NOIR are available, consult literature for details. |