Pattern Glass

We understand the importance of creating private, illuminated spaces. Our Patterned Glass solutions offer the perfect blend of privacy and decoration, allowing you to transform ordinary spaces into extraordinary environments. Explore our range of Patterned Glass types designed to illuminate your space with style and discretion.

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Selecting the perfect finish

Use the comparison tool below to help select the perfect glass for your space.

Standard Reeded

Reeded Glass features a distinctive textured pattern that enhances privacy while adding a touch of classic style to your shower through it’s subtle green tint.

Spotswood

Spotswood features a unique, pebble-like texture. Its design offers excellent privacy while allowing soft, diffused light to filter through.

Satinlite

Satinlite offers a refined, frosted look with a subtle texture that balances privacy and light diffusion. Its smooth, understated pattern adds a modern touch.

Cathedral

Cathedral combines artistic texture with privacy, making it a standout choice for shower panels. Its intricate design diffuses light beautifully.

Low Iron Reeded

Low Iron Reeded Glass offers a crystal-clear appearance, free from the green tint found in standard reeded glass. Its reeded texture enhances privacy.

Low Iron Reeded

Low Iron Reeded Glass offers a crystal-clear appearance, free from the green tint found in standard reeded glass. Its reeded texture enhances privacy.

Satinlite

Satinlite offers a refined, frosted look with a subtle texture that balances privacy and light diffusion. Its smooth, understated pattern adds a modern touch.

Spotswood

Spotswood features a unique, pebble-like texture. Its design offers excellent privacy while allowing soft, diffused light to filter through.

Cathedral

Cathedral combines artistic texture with privacy, making it a standout choice for shower panels. Its intricate design diffuses light beautifully.

Standard Reeded

Reeded Glass features a distinctive textured pattern that enhances privacy while adding a touch of classic style to your shower through it’s subtle green tint.

*The colors, tones and patterns displayed on our website are intended as a general guide and may not accurately represent the true appearance of our glass products. We strongly recommend reviewing physical samples before placing your order to ensure you have a true-to-life understanding of the product’s appearance.

Performance Data

  • Calculation method: LBNL WINDOW Calc Engine v2.4.0, Optics 6.0
  • Environmental Condition: NFRC 100-2000
  • Results are for center-of-glass; does not include effect of frames
  • Tilt-angle is 90deg unless specified otherwise (i.e. not valid for skylights)
  • Location of LowE coating is indicated with surface number
    • #1 indicates exterior surface, #4 indicates the interior surface in a typical double-glazed unit
Uval

Heat-transfer coefficient (W/m2.K)

  • Heat transfer (W) per square meter of glass for each degree (C) of temperature difference
  • Lower implies better insulation
 Visible spectrum Colour fading Thickness
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w.

NFRC 100-2010 Winter Condition

  • This is the standard environmental condition quoted in the Window industry
  • Inside Condition:
    • Air and effective room temperature: 21 deg C
    • Room emissivity: 1
  • Outside Condition:
    • Air and effective sky temperature: -18 deg C
    • Effective sky emissivity: 1
    • Convection coefficient: 26 W/m2.K
    • Wind speed: 5.5m/s windward
s.

NFRC 100-2010 Summer Condition

  • The condition used to calculate SHGC
  • Inside Condition:
    • Air and effective room temperature: 24 deg C
    • Room emissivity: 1
  • Outside Condition:
    • Air and effective sky temperature: 32 deg C
    • Effective sky emissivity: 1
    • Convection coefficient: 15 W/m2.K
    • Wind speed: 2.75m/s windward
    • Direct solar radiation: 783W/m2
SHGC

Solar heat gain coefficient

  • Proportion of solar heat radiation transmitted (Range: 0 – 1)
  • Generally lower SHGC is desirable for north and west facing windows for reducing air-conditioning cost in summer
  • However, higher SHGC for north and west facing windows would help reduce heating cost in winter
VLT

Visible light transmittance

  • Proportion of visible light (380 - 720nm) transmitted (Range: 0 – 1)
  • Generally higher VLT is more desirable
VLRf

Front Visible light reflectance

  • Proportion of visible light reflected on the external side of the IGU
VLRb

Back Visible light reflectance

  • Proportion of visible light reflected on the room side of the IGU
Tdw

Damage weighted transmittance (Tdw-ISO)

  • Proportion of colour fading radiation transmitted (Range: 0 – 1)
  • Lower Tdw-ISO means lower risk of colour fading
  • Accounts for the colour fading potential of both UV and visible spectrum
Tuv

UV transmittance

  • Proportion of UV radiation (280 - 380nm) transmitted (Range: 0 – 1)
  • Not recommended as a metric for assessing colour fading potential
  • Visible spectrum could account for as much as 40% of the fading from solar radiation
Sel.

Selectivity: Ratio of visible light transmittance over solar heat gain coefficient (VLT/SHGC)

  • Useful for comparing spectral selectiveness of the low-E coating
  • Higher selectivity means less visible light is sacrificed to lower solar heat gain
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Nom.

Nominal thicknesses of the IGU makeup

 Total Visual fontcolour
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Applications

Application Information

    Internal Applications:

    • Stairs, Landings, and Walkways
    • Partitions
    • Shower Screens
    • Furniture
    • Balustrades
    • Doors
    • Windows

    External Applications:

    • Pool Fencing
    • Facades
    • Overhead Glazing
    • Balustrades
    • Doors
    • Windows

    Specifications

    How to Specify

    Considerations

    Things to Consider

    Installation

    Glazing systems should be designed to ensure proper water drainage or to be fully watertight, safeguarding the laminated edges and interlayer from prolonged moisture exposure. Some sealants, like linseed oil or putty, can lead to edge de-lamination; therefore, it is recommended to use neutral cure silicone sealants.

    Applications

    Our standard PVB interlayer is 0.38mm thick, with options available in 0.76mm and 1.52mm thicknesses for enhanced resistance against physical impact and attack.