Product Compliance (CE)
DIN EN 14388:2005/AC:2008
The “EURO—SSA/DRW” aluminium noise barrier system is CE tested to DIN EN 14388 standards by MFPA Leipzig GmbH, confirming performance in acoustic insulation, durability, fire resistance, and structural safety.
Environmental Management
BS EN ISO 14001:2015
BS EN ISO 14001:2015 certification confirms that environmental management systems are implemented to effectively control and reduce environmental impact across operations and manufacturing processes. The standard demonstrates commitment to sustainability, regulatory compliance, waste reduction, and continual environmental improvement.
Quality Management
BS EN ISO 9001:2015
BS EN ISO 9001:2015 certification confirms that quality management systems are implemented to ensure consistent product quality, operational efficiency, and continual improvement across manufacturing and business processes. The standard demonstrates commitment to customer satisfaction, regulatory compliance, and high-quality performance standards.
Sound Absorption
DIN EN ISO 354
DIN EN 1793-1:1997
The “EURO—SSA/DRW” aluminium noise barrier system was tested by MFPA Leipzig GmbH in accordance with DIN EN ISO 10140-2 and DIN EN 1793-2 standards. The system achieved an airborne sound insulation rating of DLR = 23 dB and was classified as B2 for acoustic performance, confirming effective traffic noise reduction capabilities for infrastructure applications.
Sound Insulation
DIN EN 1793-2:1997
DIN EN ISO 10140-2
The “EURO—SSA/DRW” aluminium noise barrier system was tested by MFPA Leipzig GmbH in accordance with DIN EN ISO 10140-2 and DIN EN 1793-2 standards. The system achieved an airborne sound insulation rating of DLR = 23 dB and was classified as B2 for acoustic performance, confirming effective traffic noise reduction capabilities for infrastructure applications.
Sound Reflection Performance
DIN EN 1793-5
The “EURO—SSA/DRW” aluminium noise barrier system was tested by MFPA Leipzig GmbH in accordance with DIN EN 1793-5 standards for in-situ sound reflection performance. The system achieved a sound reflection rating of DLRI = 7 dB, confirming effective reduction of reflected traffic noise and improved acoustic performance for roadside infrastructure applications.
Airborne Sound Insulation
DIN EN 1793-6
The “EURO—SSA/DRW” aluminium noise barrier system was tested by MFPA Leipzig GmbH in accordance with DIN EN 1793-6 standards for airborne sound insulation performance. The system achieved sound insulation ratings of up to DLsi.e = 29 dB and an overall barrier performance of DLsi.g = 28 dB, confirming effective reduction of transmitted traffic noise for infrastructure applications.
Highway Compliant Powder Coating
BS EN 13438:2013
BS EN 12206:2021
BS 1722 PART 16
The powder coating system used on the noise barrier panels complies with BS EN 13438:2013, BS EN 12206:2021, and BS 1722 Part 16 standards, ensuring high durability, corrosion resistance, and long-term exterior performance. The coating is specifically designed for architectural and infrastructure applications, providing reliable protection against weathering, UV exposure, and environmental conditions.
Fire Resistance
DIN EN 1794-2:2003-07
The “EURO—SSA/DRW” aluminium noise barrier system was tested by MFPA Leipzig GmbH in accordance with DIN EN 1794-2:2003-07 for resistance to brushwood fire exposure. The system achieved Fire Resistance Class 3, with no burn-through or structural failure recorded during testing, confirming strong fire performance for infrastructure and roadside applications.
Wind Load Resistance
DIN EN 1794-1:2003 Annex A
DIN EN 1794-1:2011 Annex A
The “EURO—SSA/DRW” aluminium noise barrier system was tested by MFPA Leipzig GmbH in accordance with DIN EN 1794-1 standards for wind load resistance. The system achieved permissible wind load ratings of up to 6.4 kN/m² and successfully withstood 1.5 times the applied test load without visible failure, confirming excellent structural stability and durability under high wind conditions.
Light Reflection
DIN EN 1794-2:2003 Annex E
DIN EN 1794-2:2011 Annex E
The “EURO—SSA/DRW” aluminium noise barrier system was tested by MFPA Leipzig GmbH in accordance with DIN EN 1794-2 standards for light reflection performance. The system achieved a maximum gloss value of 19.34 and was classified as Class 3, confirming low reflectivity and reduced glare risk for road users in infrastructure applications.
Mechanical Resistance – Vertical Loads and Self-Weight
DIN EN 1794-1:2003 Annex B
DIN EN 1794-1:2011 Annex B
The “EURO—SSA/DRW” aluminium noise barrier system was tested by MFPA Leipzig GmbH in accordance with DIN EN 1794-1 standards for mechanical resistance and vertical load performance. The system successfully withstood loads up to 28.9 kN without visible failure, confirming excellent structural strength and durability for demanding infrastructure applications.
Stone Impact Resistance
DIN EN 1794-1:2011 Annex C.2
The “EURO—SSA/DRW” aluminium noise barrier system was tested by MFPA Leipzig GmbH in accordance with DIN EN 1794-1 Annex C standards for stone impact resistance. The system successfully withstood 30 Nm impact testing with no visible damage other than slight local dents, confirming strong resistance to stone impact for roadside infrastructure applications.
Snow-Clearing Resistance
DIN EN 1794-1:2003 Annex E
DIN EN 1794-1:2011 Annex E
The “EURO—SSA/DRW” aluminium noise barrier system was tested by MFPA Leipzig GmbH in accordance with DIN EN 1794-1 Annex E standards for snowclearing resistance. The system achieved an admissible dynamic load of at least 15 kN over a 2 m × 2 m area and demonstrated suitability for snowplough operations up to 60 km/h, confirming excellent structural durability under heavy operational conditions.
Long-Term Performance
DIN EN 14389
The “EURO—SSA/DRW” aluminium noise barrier system was assessed by MFPA Leipzig GmbH in accordance with DIN EN 14389 standards for longterm acoustic effectiveness. The system was confirmed to maintain its sound absorption, sound reflection, and airborne sound insulation performance for up to 40 years under specified environmental conditions, demonstrating excellent durability and long-term reliability.