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Detailed Introduction:
GT-NSP-Fp2.00-SB-2 indoor intumescent steel structure fire retardant coating is a water-based intumescent steel structure fire retardant coating developed by our company. The coating has thin thickness, strong adhesion, good fire resistance and excellent decoration. Effect. Green and environmentally friendly, it can be widely used for fire protection of indoor steel structures.
Introducing GT-NSP-FP2.00-SB-2 Indoor Intumescent Steel Structure Fire Retardant Paint, meticulously designed to cater to the specific needs and regulations of our esteemed European clientele. With a focus on both performance and compliance, this premier paint system sets a new standard for fire protection in steel structures across the European market.
At the heart of GT-NSP-FP2.00-SB-2 lies its advanced formulation, engineered to deliver exceptional fire resistance while adhering to stringent European Union regulations. Its water-based composition ensures environmental sustainability and compliance with EU directives on VOC emissions, addressing the pressing need for eco-friendly solutions in the architectural sector. This commitment to sustainability is further underscored by GT-NSP-FP2.00-SB-2's non-toxic and pollution-free properties, providing a safe and healthy environment for building occupants.
Beyond its environmental credentials, GT-NSP-FP2.00-SB-2 excels in performance, offering robust fire protection for steel structures in diverse architectural settings. Its thin application and strong adhesion properties ensure reliable fire resistance without compromising on aesthetic appeal. The paint's white color not only complements the visual aesthetics of buildings but also ensures compatibility with standard anti-corrosion primers, enhancing versatility in application.
GT-NSP-FP2.00-SB-2 is tailored to meet the varied needs of European customers across commercial, residential, and industrial sectors. Whether applied in office buildings, residential complexes, or industrial facilities, this innovative paint system delivers peace of mind and safety to occupants. With its superior performance, environmental sustainability, and compliance with European regulations, GT-NSP-FP2.00-SB-2 emerges as the preferred choice for architects, builders, and property owners seeking top-tier fire protection solutions in Europe.
Main Feature:
Ease of application is a hallmark of this product, applicable through spraying, brushing, roller coating, and other methods. Its thin profile, strong adhesion, high fire resistance, and excellent decorative performance make it a standout choice. Unlike traditional solvent-based coatings, this product's white color complements conventional anti-corrosion primers without chemical reactions or unpleasant odors. Dilution is effortless, requiring only water and eliminating the need for special diluents. Furthermore, it's free from harmful benzene substances, non-toxic, and environmentally friendly. With fast drying and minimal thermal insulation attenuation, it ensures both safety and efficiency for indoor steel structures.
GT-NSP-FP2.00-SB-2 is an indoor intumescent steel structure fire retardant paint with the following features and advantages:
Wide Applicability: Suitable for various indoor steel structures such as steel columns, beams, and frames, providing effective fire protection.
Excellent Decorative Properties: In addition to its fire-resistant function, this paint offers good decorative appeal, enhancing the aesthetic appearance of the steel structure surfaces.
Environmentally Friendly: Compliant with green environmental standards, it is made from eco-friendly materials without harmful substances, posing no harm to human health or the environment.
Thin Coating Thickness: With a low coating thickness, it ensures fire resistance while reducing the amount of paint used, thereby lowering costs, and without significantly affecting the appearance of the steel structure.
In summary, GT-NSP-FP2.00-SB-2 indoor intumescent steel structure fire retardant paint offers wide applicability, excellent decorative properties, environmental friendliness, and thin coating thickness, making it an effective choice for safeguarding indoor steel structures.
Scope of Application:
It can be used in steel structure buildings with high decorative and environmental requirements such as clean factories, high-end residences or prefabricated buildings. It can also be widely used for fire protection of indoor steel structures with decorative requirements such as industrial plants, stadiums, terminal buildings, high-rise buildings, etc.
Base treatment and construction methods
1.Substrate treatment
1.1 Surface treatment of steel structures is the basic condition to ensure the durability of fire retardant coatings. According to different base materials, the surface treatment of steel structures should be as follows:
1.1.1 New ordinary steel structure surface
After the steel structure surface is sandblasted and derusted, a matching anti-rust and anti-corrosion coating is applied. It is recommended to use an epoxy zinc-rich primer + epoxy mica iron intermediate paint system.
1.1.2 Galvanized steel surface
In order to ensure good bonding performance with fire retardant coatings, epoxy coating transition paint must be used before construction.
1.1.3 Old steel structure or old primer surface
If the primer is not damaged and the surface is clean, check the compatibility of the fire retardant coating and the primer; if there is no primer or the primer is seriously damaged, the anti-corrosion coating must be removed and repainted before construction.
1.2 Before construction, thoroughly check whether the steel parts are painted with anti-rust paint, whether there is dust or oil stains, and whether there are cracks and improper welding on the steel beams and columns. Construction can begin only after the inspection shows that there are no problems.
1.3 Steel parts that have not been rust-proofed must be rust-proofed (this process is generally the responsibility of the user).
2. Apply fire retardant paint
2.1 When opening the packaging on site, you must use an electric stirrer to stir until the consistency is uniform. If the material is too thick, add a small amount of neutral water until it is suitable for brushing, but it should not exceed 5% of the paint volume.
2.2 This coating can be applied by brush or roller. Each pass should be applied alternately horizontally and vertically to ensure it is even and smooth.
2.3 Construction temperature and humidity requirements
When applying this paint, it should be used between 5~35℃ and relative humidity ≤80%. High humidity or low temperature will prolong drying time and cause poor film adhesion and reduction of other properties.
2.4 The coating thickness during the first pass of construction shall not exceed 0.2mm.
2.5 After the first coat is basically dry, apply the next coat until the specified thickness is reached. The thickness of each dry film should not be greater than 0.2mm (wet film 0.2-0.3mm).
2.6 Under normal temperature conditions, the construction interval should be more than 12 hours; if the temperature is too high or too low, the construction interval can be adjusted appropriately.
2.7 During the use of this product, it is recommended to use alkali-free fiberglass cloth for wrapping. When the coating is constructed to a thickness of about 1.5mm (dry film), wrap the alkali-free fiberglass mesh cloth, with an overlap of 5-10cm between meshes, and add Use a spatula behind the net to compact the net in one direction, paying attention to the compaction of the corners and joints. The next step of construction can only be carried out after full compaction and ensuring that there are no hollow areas.
2.8 High humidity and low gas flow or low steel temperature may cause condensation on the steel, resulting in poor adhesion of the paint, or even cracking, rolling, and peeling.
2.Construction steps and operating points:
3.1 Substrate treatment 3.2. First coat of paint 3.3. Second to nth layer construction 3.4. Self-inspection
Precautions:
1. The building should be capped during construction, and the coating is strictly prohibited from rain, rainwater immersion, and exposure during construction and use. If it is used in a semi-enclosed state for a long time, a high-performance topcoat must be applied.
2. This product does not provide color matching services. If you need color selection, you can use the matching topcoat.
3. In order to improve the fire-resistant stability of the fire-resistant coating on key parts of the steel structure during a fire, it is recommended to wrap high-strength fiberglass cloth during the construction process.
4. The temperature of this coating during transportation shall not be lower than 0℃, and the storage temperature shall be higher than 5℃.
5. It is strictly prohibited to add other ingredients to this paint, and it cannot be mixed with other paints.
Detailed Introduction:
GT-NSP-Fp2.00-SB-2 indoor intumescent steel structure fire retardant coating is a water-based intumescent steel structure fire retardant coating developed by our company. The coating has thin thickness, strong adhesion, good fire resistance and excellent decoration. Effect. Green and environmentally friendly, it can be widely used for fire protection of indoor steel structures.
Introducing GT-NSP-FP2.00-SB-2 Indoor Intumescent Steel Structure Fire Retardant Paint, meticulously designed to cater to the specific needs and regulations of our esteemed European clientele. With a focus on both performance and compliance, this premier paint system sets a new standard for fire protection in steel structures across the European market.
At the heart of GT-NSP-FP2.00-SB-2 lies its advanced formulation, engineered to deliver exceptional fire resistance while adhering to stringent European Union regulations. Its water-based composition ensures environmental sustainability and compliance with EU directives on VOC emissions, addressing the pressing need for eco-friendly solutions in the architectural sector. This commitment to sustainability is further underscored by GT-NSP-FP2.00-SB-2's non-toxic and pollution-free properties, providing a safe and healthy environment for building occupants.
Beyond its environmental credentials, GT-NSP-FP2.00-SB-2 excels in performance, offering robust fire protection for steel structures in diverse architectural settings. Its thin application and strong adhesion properties ensure reliable fire resistance without compromising on aesthetic appeal. The paint's white color not only complements the visual aesthetics of buildings but also ensures compatibility with standard anti-corrosion primers, enhancing versatility in application.
GT-NSP-FP2.00-SB-2 is tailored to meet the varied needs of European customers across commercial, residential, and industrial sectors. Whether applied in office buildings, residential complexes, or industrial facilities, this innovative paint system delivers peace of mind and safety to occupants. With its superior performance, environmental sustainability, and compliance with European regulations, GT-NSP-FP2.00-SB-2 emerges as the preferred choice for architects, builders, and property owners seeking top-tier fire protection solutions in Europe.
Main Feature:
Ease of application is a hallmark of this product, applicable through spraying, brushing, roller coating, and other methods. Its thin profile, strong adhesion, high fire resistance, and excellent decorative performance make it a standout choice. Unlike traditional solvent-based coatings, this product's white color complements conventional anti-corrosion primers without chemical reactions or unpleasant odors. Dilution is effortless, requiring only water and eliminating the need for special diluents. Furthermore, it's free from harmful benzene substances, non-toxic, and environmentally friendly. With fast drying and minimal thermal insulation attenuation, it ensures both safety and efficiency for indoor steel structures.
GT-NSP-FP2.00-SB-2 is an indoor intumescent steel structure fire retardant paint with the following features and advantages:
Wide Applicability: Suitable for various indoor steel structures such as steel columns, beams, and frames, providing effective fire protection.
Excellent Decorative Properties: In addition to its fire-resistant function, this paint offers good decorative appeal, enhancing the aesthetic appearance of the steel structure surfaces.
Environmentally Friendly: Compliant with green environmental standards, it is made from eco-friendly materials without harmful substances, posing no harm to human health or the environment.
Thin Coating Thickness: With a low coating thickness, it ensures fire resistance while reducing the amount of paint used, thereby lowering costs, and without significantly affecting the appearance of the steel structure.
In summary, GT-NSP-FP2.00-SB-2 indoor intumescent steel structure fire retardant paint offers wide applicability, excellent decorative properties, environmental friendliness, and thin coating thickness, making it an effective choice for safeguarding indoor steel structures.
Scope of Application:
It can be used in steel structure buildings with high decorative and environmental requirements such as clean factories, high-end residences or prefabricated buildings. It can also be widely used for fire protection of indoor steel structures with decorative requirements such as industrial plants, stadiums, terminal buildings, high-rise buildings, etc.
Base treatment and construction methods
1.Substrate treatment
1.1 Surface treatment of steel structures is the basic condition to ensure the durability of fire retardant coatings. According to different base materials, the surface treatment of steel structures should be as follows:
1.1.1 New ordinary steel structure surface
After the steel structure surface is sandblasted and derusted, a matching anti-rust and anti-corrosion coating is applied. It is recommended to use an epoxy zinc-rich primer + epoxy mica iron intermediate paint system.
1.1.2 Galvanized steel surface
In order to ensure good bonding performance with fire retardant coatings, epoxy coating transition paint must be used before construction.
1.1.3 Old steel structure or old primer surface
If the primer is not damaged and the surface is clean, check the compatibility of the fire retardant coating and the primer; if there is no primer or the primer is seriously damaged, the anti-corrosion coating must be removed and repainted before construction.
1.2 Before construction, thoroughly check whether the steel parts are painted with anti-rust paint, whether there is dust or oil stains, and whether there are cracks and improper welding on the steel beams and columns. Construction can begin only after the inspection shows that there are no problems.
1.3 Steel parts that have not been rust-proofed must be rust-proofed (this process is generally the responsibility of the user).
2. Apply fire retardant paint
2.1 When opening the packaging on site, you must use an electric stirrer to stir until the consistency is uniform. If the material is too thick, add a small amount of neutral water until it is suitable for brushing, but it should not exceed 5% of the paint volume.
2.2 This coating can be applied by brush or roller. Each pass should be applied alternately horizontally and vertically to ensure it is even and smooth.
2.3 Construction temperature and humidity requirements
When applying this paint, it should be used between 5~35℃ and relative humidity ≤80%. High humidity or low temperature will prolong drying time and cause poor film adhesion and reduction of other properties.
2.4 The coating thickness during the first pass of construction shall not exceed 0.2mm.
2.5 After the first coat is basically dry, apply the next coat until the specified thickness is reached. The thickness of each dry film should not be greater than 0.2mm (wet film 0.2-0.3mm).
2.6 Under normal temperature conditions, the construction interval should be more than 12 hours; if the temperature is too high or too low, the construction interval can be adjusted appropriately.
2.7 During the use of this product, it is recommended to use alkali-free fiberglass cloth for wrapping. When the coating is constructed to a thickness of about 1.5mm (dry film), wrap the alkali-free fiberglass mesh cloth, with an overlap of 5-10cm between meshes, and add Use a spatula behind the net to compact the net in one direction, paying attention to the compaction of the corners and joints. The next step of construction can only be carried out after full compaction and ensuring that there are no hollow areas.
2.8 High humidity and low gas flow or low steel temperature may cause condensation on the steel, resulting in poor adhesion of the paint, or even cracking, rolling, and peeling.
2.Construction steps and operating points:
3.1 Substrate treatment 3.2. First coat of paint 3.3. Second to nth layer construction 3.4. Self-inspection
Precautions:
1. The building should be capped during construction, and the coating is strictly prohibited from rain, rainwater immersion, and exposure during construction and use. If it is used in a semi-enclosed state for a long time, a high-performance topcoat must be applied.
2. This product does not provide color matching services. If you need color selection, you can use the matching topcoat.
3. In order to improve the fire-resistant stability of the fire-resistant coating on key parts of the steel structure during a fire, it is recommended to wrap high-strength fiberglass cloth during the construction process.
4. The temperature of this coating during transportation shall not be lower than 0℃, and the storage temperature shall be higher than 5℃.
5. It is strictly prohibited to add other ingredients to this paint, and it cannot be mixed with other paints.