Securock cement roof board is a high performance roof board for use in low slope roofing systems.
Securock cement roof board.
Securock brand ultralight glass mat roof board is a high performance roof board for use in low slope commercial roofing systems.
It is designed to enhance the entire roofing system as both a cover board and as a parapet fire or thermal barrier roof board.
Usg securock cement roof board is formed in a continuous process using an aggregated portland cement slurry with polymer coated glass fi ber mesh completely encompassing edges and both surfaces which enhances bond strength of membrane systems and gives excellent resistance to delamination.
The lightest cement board in the industry securock brand cement roof board is easy to handle cut and fasten.
Securock brand gypsum fiber roof board s dense concentration of gypsum and cellulose fibers provides exceptional panel and bond strength low surface absorption and superior wind uplift performance with no face layer to delaminate.
The specially treated core and high performance glass mat facer provide protection against fire mold and moisture while high quality mat produces less itchiness than competitive products.
It is also ideal for applications such as liquid applied membranes and cold mastic modified bitumen.
The sustainable design has earned independent certification from scientific certification systems.
As a cover board securock cement roof board can be used with a variety of membranes and systems.
Usg securock brand gypsum fiber roof board is a high performance roof board for use in low slope roofing systems.
Its unique fiber reinforced homogeneous composition gives the panel strength and water resistance through to the core.
Plus because it is cement based it provides superior compressive strength water durability and mold resistance and will not rot warp delaminate or disintegrate in the presence of water.
The board is formed using an aggregated portland cement slurry with a polymer coated glass fiber mesh completely encompassing edges and both surfaces to enhance bond strength of membrane systems and gives excellent resistance to delamination.