DANOPOL HS 1.5 & 1.8 Single Ply Membranes Earn Coveted FM Approval

In a significant milestone for its position within roofing industry, DANOSA, a leading manufacturer of innovative roofing and waterproofing solutions, has achieved FM Approval for two of its flagship products: the mechanically fixed single ply membranes DANOPOL HS 1.5 and DANOPOL HS 1.8. This prestigious certification from FM Global underscores DANOSA’s commitment to delivering high-quality, reliable, and roof-enhancing products for the construction sector.

What is FM Approval?

FM Approval, granted by FM Global, signifies that products have undergone rigorous testing and have met stringent standards for safety, reliability, and performance. This certification is highly regarded in the industry, as it demonstrates a product’s ability to prevent or minimise property damage, especially in the event of fire or other disasters.

DANOPOL Single Ply Membranes: Setting a New Standard

DANOSA’s DANOPOL HS 1.5 and HS 1.8 single ply membranes have emerged as some of the industry’s finest, excelling in the demanding tests set by FM Global. These membranes, made from high-quality polyvinyl chloride (PVC) offer outstanding durability, flexibility, and resistance to environmental factors. Designed for flat and pitched roofs, these membranes provide effective waterproofing and protection, ensuring the longevity of buildings.

Why Choose DANOPOL?

  • Long Life Expectancy: Independently assessed by the BBA to have a service life in excess of 30 years.
  • Versatile Specification: A choice of attachment options and unique design options such as our Alpha Profiles and Integrated Fixing Points
  • UV Resistance: Engineered to withstand extreme climates, DANOPOL membranes are manufactured with high-performance UV resistant inhibitors.
  • Rot Proof/Root Resistant: DANOPOL membranes are root resistant as standard.
  • Highly Flexible: Manufactured with a range of strong polyester and glass fibre reinforcement, our DANOPOL® systems are designed to move and flex to accommodate building movement.
  • Single Point System Warranties: Our system warranties include all of the components supplied by DANOSA as part of a single-point cover (exc. living roof systems).

Significance of FM Approval for DANOSA and Its Customers

Receiving FM Approval for DANOPOL HS 1.5 and DANOPOL HS 1.8 is a testament to DANOSA’s unwavering dedication to quality and safety. For DANOSA, this achievement reinforces its position as an industry leader and underscores the company’s commitment to providing cutting-edge solutions that meet the highest industry standards.

For architects, main contractors, and building owners, the FM Approval certification offers several advantages, but most importantly, it guarantees the quality and reliability of DANOSA’s products. The FM Approval diamond assures clients that they are investing in waterproof solutions that will protect their assets effectively.

Market Trust and Future Prospects

With FM Approval for its DANOPOL HS 1.5 and HS 1.8 membranes, DANOSA has further solidified its reputation as a trusted provider of high-performance roofing and waterproofing solutions for flat roofing. This certification enhances market trust, allowing architects, engineers, contractors, and building owners to have confidence in DANOSA products for their construction projects.

As businesses and construction professionals increasingly prioritise safety and quality, DANOSA’s commitment to excellence, positions it as a go-to choice for reliable and innovative roofing solutions.

DANOSA’s achievement of FM Approval for its DANOPOL HS 1.5 and DANOPOL HS 1.8 single ply membranes marks a significant milestone, emphasising the company’s dedication to delivering products that meet the highest industry standards. With this certification, DANOSA not only ensures the quality and safety of its offerings but also strengthens its position as a leader in the competitive construction materials market.

For further details about DANOSA’s FM Approved Single Ply membranes, speak to uktechical@danosa.com.