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Rainscreen cladding systems are designed to perform well in a number of areas. Firstly, as the name suggests, they must protect the exterior of buildings from the weather. They must also improve thermal performance (reducing heat loss and saving energy), meet fire and combustibility standards, and improve a building’s appearance... all within a commercially viable solution for clients.



Performance-tested -our system uses non-combustible, A1 fire-rated materials, such as aluminium, stainless steel and terracotta clay, and complies with the following standards:

    • BS8414-2:2020 Fire performance of external cladding
    • CWCT Standard test methods for building envelopes, 2005
    • Vinci third-party load-testing for bracket strength
    • BS EN ISO 10211:2007 Thermal bridges in building construction – Heat flows and surface temperatures – Detailed
    • BS EN ISO 6946:2007 Building components and building elements – Thermal resistance and thermal transmittance –
      Calculation method
    • EN ISO 10077-2:2012 Thermal performance of windows, doors and shutters - Calculation of thermal transmittance
    • BS EN 12524:2000 Building materials and products – Hygrothermal properties
    • BS 5250:2002 Code of practice for control of condensation in buildings
    • BS EN ISO 13788:2012 Hygrothermal performance of building components and building elements – Internal surface temperature to avoid critical surface humidity and interstitial condensation – Calculation methods
    • BS EN 12631:2012 Thermal performance of curtain walling – Calculation of thermal transmittance

Optimised sub-structure  -  Finite Element Analysis, desktop product design and prototyping have ensured that every element of the structure has been optimised to reduce the amount of material required and improve overall structural integrity.

Patent-pending design - Cutting-edge components of the rainscreen system, including primary brackets and insulation clips, are patent-pending. The innovative design improves thermal (U-value) and weather-sealing performance by reducing the number of penetrations into the fixing grounds - vertical insulation clips connect to the mullion and horizontal clips connect to the transom carrier to securely hold the insulation.

Wider bracket centres - Positioning fewer, higher thermal- specification and better load-bearing brackets at significantly larger centres reduces overall costs and cuts installation time. Weather seals are incorporated into the base of the brackets and the fixings to eliminate the risk of moisture ingress behind the weather membrane..

Environmental credentials - Our helping-hand brackets are reused or recycled after the support structure is fixed permanently, helping BREEAM projects achieve their sustainability goals. The design of the brackets allows the smallest possible footprint when installing the insulation – allowing fitters to ensure there are no air pockets (critical for thermal efficiency and fire protection).

Flexibility - All parts of Maple’s rainscreen system can also be used as individual components – interconnecting with industry-leading materials, such as cavity barriers, stone wall insulation and breather/weather membranes.

System options

Our panels have been designed to combine commercial and aesthetic benefits with fire-retardancy performance for rainscreen systems.

Panel Style Purpose Material
Stainless Steel Aluminium Terracotta
Face-Fix Direct to
vertical mullion
T-section fixing
Stainless-steelweb150 Aluminiumweb150  
Discreet hidden
fixing, with transom
carrier rail for
additional support
Stainless-steelweb150 Aluminiumweb150  
Extruded Slat Extruded
aluminium offering
bespoke 3D
Terracotta tile Face-fix using
terracotta tiles


System components

  1. Main bracket
  2. T-section mullion
  3. Insulation clip
  4. C-carrier transom rail
  5. Facing panel
  6. Insulation layer
  7. Vapour barrier/weather membrane

Rainscreen section with labels no background


Class-leading rainscreen cladding