ROCK TORCH is a Plastomeric high performance, prefabricated, modified bitumen waterproofing membrane consisting of proprietary waterproofing bitumen compound, reinforced with Non-Woven Reinforcement composite with fiberglass.
Rock Torch is a Plastomeric high performance, prefabricated, modified bitumen waterproofing membrane consisting of proprietary waterproofing bitumen compound, reinforced with Non-Woven Reinforcement composite with fiberglass.
Rock Torch proprietary waterproofing compound is formulated with high grade bitumen modified with Atactic polypropylene (APP) to increase elasticity, flexibility, and enhanced with admixture of Thermoplastic materials to gain high heat resistance, good elongation and low temperature flexibility. To improve the UV resistance and durability for The Product, the membrane is coated with Mineral Stabilizers.
There are several types of reinforcement materials used in bituminous membranes, including:
The choice of reinforcement material depends on the specific requirements of the roofing system and the desired properties such as reflectivity, dimensional stability, and resistance to environmental factors.
The surface finish of a bituminous membrane refers to the final appearance of the membrane once it has been installed on the roof. The surface finish can have an impact on the overall aesthetic of the roof, as well as its performance. Some common types of surface finishes for bituminous membranes include:
Sand finish: a rough, textured surface that helps to increase the coefficient of friction and improve slip resistance, Specially (White/Yellow)
Granulated finish: a surface that is covered with small, granulated particles, typically made of a durable material such as aluminum oxide. This finish provides a high level of slip resistance and UV stability. Available in colors (Red, Grey, Green)
Smooth finish: a smooth surface that provides a sleek, modern appearance, but may have lower slip resistance compared to other finishes.
The choice of surface finish depends on the specific requirements of the roofing system, such as the desired level of slip resistance and the type of roof deck.
The installation methods for APP (Atactic Polypropylene) bituminous membrane vary depending on the specific requirements of the roofing system and the type of membrane being used. Some common methods of installation include:
Heat welded seam method: involves heating the overlapped edges of the membrane with a propane torch to create a seamless, watertight bond between the two pieces of membrane.
Self-adhesive method: involves removing the release paper from the self-adhesive backing on the membrane and pressing it onto the roof deck.
Torch-on method: involves heating the bituminous membrane with a torch and then pressing it onto the roof deck, where it will fuse and adhere to the surface.
Mechanically fastened method: involves using special mechanical fasteners to attach the membrane to the roof deck.
The choice of installation method will depend on factors such as the type of roof deck, the local building codes and regulations, and the desired level of seam strength and durability. It is recommended to seek the guidance of a professional roofing contractor for the installation of an APP bituminous membrane.
Test | Test Method | Tolerance | Result | Unit | الاختبار |
Thickness | EN 1849-1 | ±5% | 4 | mm | السمك |
Width | EN 1848-1 | ±1% | 1 | m | العرض |
Length | EN 1848-1 | ±1% | 10 | m | الطول |
Straightness | EN 1848-1 | - | ± 6 | mm | درجة اإلستقامة |
Softening Point (R&B) | ASTM D-36 | ≥ | 150 | °C | درجة التطرية |
Flexibility at low temperature | EN 1109 ASTM D-5147 | - | 0 : ±2 | °C | المرونة عند درجات الحرارة المنخفضة |
Flow resistance at elevated temperature | EN 1110 ASTM D-5147 | -10 | 110 | °C | الثبات عند درجات الحرارة العالية |
Tensile Strength-Longitudinal | EN 12311-1ASTM D-5147 | ± 25% | 650 | N/5cm | مقاومة الشد القصوي-طوليا |
Tensile Strength-Transverse | EN 12311-1ASTM D-5147 | ± 25% | 550 | N/5cm | مقاومة الشد القصوي-عرضيا |
Tearing Strength-Longitudinal | EN 12310-1 | ≥ | 160 | N | مقاومة التمزق-طوليا |
Tearing Strength-Transverse | EN 12310-1 | ≥ | 180 | N | مقاومة التمزق-عرضيا |
Tensile Tear Resistance-Longitudinal | ASTM D-5147 D-4073 | ± 20% | 400 | N | مقاومة التمزق بطريقة الشد-طوليا |
Tensile Tear Resistance-Transverse | ASTM D-5147 D-4073 | ± 20% | 400 | N | مقاومة التمزق بطريقة الشد-عرضيا |
Resistance to Static Loading | EN 12730 | ≥ | 10 | Kg | مقاومة الإختراق الإستاتيكى |
Resistance to Impact Loading | EN 12691 | ≥ | 800 | mm | مقاومة االإختراق الديناميكى |
Shear Resistance of joint L/T | EN 12317-1 | ± 20% | 650/500 | N/5cm | مقاومة الشد عند منطقة التركيب (طوليا/عرضيا) |
Dimensional Stability L/T | EN 1107-1 | - | ± 0.5 | % | ثبات األبعاد |
Adhesion to concrete | Pelage UEATC | - | 20 | N/5cm | قوة اإللتصاق باالسطح الخرسانية |
Water absorption | ASTM D-5147 | ≤ | 0.15 | % | درجة إمتصاص الماء |
Fire Classification - Extemal Fire Performance | EN 13501-5 | - | F roof | - | تصنيف الحريق-أداء الحريق الخارجي |
Reaction to fire | EN 13501-1 | - | E | - | رد الفعل عند التعرض للنار |
Water Impermeability at Low Pressure | EN 1928 method A | - | Pass | 60Kpa | عدم نفاذية الماء للضغط المنخفض |
Water Impermeability at High Pressure | EN 1928 method B | - | Pass | 200Kpa | عدم نفاذية الماء للضغط المرتفع |
Thermal Ageing in air (in oven 4 weeks at 70 ± 2°C) | EN 1296 | - | Pass | - | الإهتراء نتيجة التسخين |
Ageing Due to Atmospheric Agents (U.V. Test weathering) | ASTM G 53 UNI 8202/29 | - | Pass | - | مقاومة التقادم لالشعة فوق البنفسجية |
Average loss of slates | EN 12039 | ≤ | 30 | % | متوسط الفاقد من الحبيبات |
• ± All Tolerances according to UEAtc Directives
• PES: Non-Woven Polyester Reinforcement Carrier