Birdair introduces Purify Mesh 30 membrane

Published On: May 4, 2015
This Purify 30 Mesh façade structure project for a wedding venue called “Pleats. I” in Saitama, Japan, shows the unique form and lighting made possible by using mesh membrane. Photo: Birdair Inc.

The membrane on this project is a PVC mesh membrane, but it does not have the TiO2 photocatalyst coating. At this time, there are no current projects that are using the Purify 30 Mesh product. Photo: Birdair Inc.

Taiyo Kogyo Corp. has launched Purify Mesh 30, which the company says is the world’s first PVC mesh membrane that incorporates TiO2 photocatalyst coating for building façade applications. Birdair Inc., a member of the Taiyo Kogyo Group, has announced that it will carry Purify Mesh 30, providing it primarily for its North American customer base.

The product allows for the design of stunning structures with the flexibility of membrane. This product can transform building façades into unique free-form curvature designs. It also allows architects to experiment and create a variety of lighting conditions with light transmitting through the mesh openings, allowing for the appearance of iconic structures from the outside, while maintaining high visibility inside the space. A range of color choices, including metallic, offers architects unique design opportunities.

Since it absorbs natural sunlight (UV) and decomposes organic matter, it offers a self-cleaning element as well. When the natural sunlight irradiates the membrane, the stains from organic matter, such as dirt, decompose and are washed away with the rain, so that required cleaning and maintenance are minimal. It reduces pollution by decomposing NOx through oxidation reactions, which purifies the surrounding air.

The product can be used over glass, creating a thermal barrier and offering relief for building occupants, while allowing sunlight in. For example, when combined with 10 mm float glass, white Purify Mesh 30 reflects 41 percent of solar heat with 22 percent transmittance. When using the product, visibility is higher with the surface coated in black versus white.

Source: Birdair