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Product Description:
our flagship BTCB-1 indoor intumescent steel structure fire retardant coating, renowned for its exceptional performance and versatility. Developed as a solvent-based product, BTCB-1 stands as a cornerstone in our product lineup, boasting a robust theoretical foundation and extensive practical application experience. Its proven efficacy in withstanding ordinary building fiber fires makes it a trusted choice for fire protection in various indoor settings.
With strong applicability and excellent stability, BTCB-1 offers unparalleled versatility. It can be customized with a variety of colors to meet specific design requirements while maintaining excellent decorative properties. Its ease of application, whether through spraying, brushing, or roller coating, ensures hassle-free construction, making it suitable for a wide range of projects.
Furthermore, BTCB-1's thin coating delivers strong adhesion and exceptional fire resistance without compromising on aesthetics. This combination of practicality and decorative appeal makes it an ideal solution for fire protection in indoor steel structures with high decorative demands, including industrial plants, stadiums, terminals, and high-rise buildings. Trust BTCB-1 to provide reliable fire protection and enhance the visual appeal of your indoor spaces.
Main Feature:
GT-NRP-Fp-BTCB-1, our cutting-edge indoor intumescent steel structure fire retardant coating, epitomizing the forefront of fire safety technology. Crafted to redefine industry standards, its sleek design and robust adhesion ensure optimal protection for indoor steel structures. Combining a slim profile with unparalleled fire retardant capabilities, GT-NRP-Fp-BTCB-1 represents a paradigm shift in safety and design innovation. Trust in its superior performance to elevate the safety and aesthetic appeal of your indoor spaces, setting a new benchmark for fire protection solutions.
Base Treatment and Construction Methods:
1.Substrate treatment
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 Surface of new ordinary steel structure
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.
1.2 Galvanized steel surface
In order to ensure good bonding performance with fire retardant coatings, epoxy coating transition paint must be used before construction.
1.3 Old steel structure or old primer surface
1.3.1 If the primer is not damaged and the surface is clean, check the compatibility of the fire retardant paint 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.
1.3.2 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.
1.3.3 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 coating
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 matching diluent until it is suitable for brushing, but it should not exceed 10% of the paint amount.
2.2 This coating can be applied by brush, roller or spray. Each pass should be applied alternately horizontally, vertically and horizontally to make it 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 application 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 0.2-0.25mm).
2.6 Under normal temperature conditions, the construction interval should be more than 24 hours; if the temperature is too high or too low, the construction interval can be adjusted appropriately. If the temperature is greater than 20°C and the airflow is above 2m/s, you can generally apply two coats a day.
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 1.2-1.5mm (dry film), wrap the alkali-free fiberglass mesh cloth with an overlap of 5- 10cm, after adding the mesh, use a spatula to compact the mesh in one direction, and pay attention to the compaction of the corners and joints. The next step of construction can only be carried out after comprehensive compaction and ensuring that there are no hollow parts.
2.8. High humidity and low gas flow or low temperature of the steel may cause condensation on the steel, resulting in poor adhesion of the paint, or even cracking, rolling, and peeling.
3.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 rain, soaking, and exposure to the sun are strictly prohibited during construction and use of the coating. If it is used in a semi-enclosed state for a long time, a high-performance topcoat must be applied.
2. 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.
3. The temperature during transportation and storage of this coating shall not be lower than 0℃.
4. It is strictly prohibited to add other ingredients to this coating, and it is not allowed to be mixed with other coatings.
Here's a hypothetical positive review from a customer regarding their experience with GT-NRP-FP-BTCB-1 Indoor Intumescent Steel Structure Fire Retardant Paint, covering their transaction, delivery, construction, and service process:
Customer:
"Our company decided to enhance the safety of our facilities by using GT-NRP-FP-BTCB-1 for our indoor steel structure fire retardant paint. From our initial contact with the manufacturer, the entire process went smoothly. Their sales team provided timely and professional advice, helping us select the product that suited our needs and provided detailed quotes and delivery information."
Transaction:
"We were satisfied with the product's performance and pricing, so we decided to proceed with the manufacturer. Their sales team was responsive, streamlining the transaction process for us and promptly handling order and payment matters. The entire process was efficient, and we were impressed with our experience dealing with them."
Delivery:
"The paint we ordered was delivered on time and well-protected during transit. The manufacturer communicated with us promptly, ensuring we were accurately informed about the delivery status and expected delivery dates. Their professionalism instilled confidence in the quality of the product and reliability of the service."
Construction:
"Once the paint arrived at our facilities, we began construction immediately. The application of GT-NRP-FP-BTCB-1 was straightforward, and our staff quickly mastered the correct application methods. The paint coated our steel structures evenly, forming a robust fire barrier upon drying. The entire construction process proceeded smoothly without any issues or delays."
Service:
"The entire process of working with the manufacturer was a pleasant experience. Their customer service team maintained a friendly and professional attitude throughout, always ready to answer our questions and address our needs. Their attention and care made us feel valued, and we are highly satisfied with the service they provided."
These reviews highlight the customer's positive impressions of the product performance, transaction process, delivery quality, construction efficacy, and customer service. Such positive feedback is crucial for fostering customer relationships and enhancing brand reputation.
Product Description:
our flagship BTCB-1 indoor intumescent steel structure fire retardant coating, renowned for its exceptional performance and versatility. Developed as a solvent-based product, BTCB-1 stands as a cornerstone in our product lineup, boasting a robust theoretical foundation and extensive practical application experience. Its proven efficacy in withstanding ordinary building fiber fires makes it a trusted choice for fire protection in various indoor settings.
With strong applicability and excellent stability, BTCB-1 offers unparalleled versatility. It can be customized with a variety of colors to meet specific design requirements while maintaining excellent decorative properties. Its ease of application, whether through spraying, brushing, or roller coating, ensures hassle-free construction, making it suitable for a wide range of projects.
Furthermore, BTCB-1's thin coating delivers strong adhesion and exceptional fire resistance without compromising on aesthetics. This combination of practicality and decorative appeal makes it an ideal solution for fire protection in indoor steel structures with high decorative demands, including industrial plants, stadiums, terminals, and high-rise buildings. Trust BTCB-1 to provide reliable fire protection and enhance the visual appeal of your indoor spaces.
Main Feature:
GT-NRP-Fp-BTCB-1, our cutting-edge indoor intumescent steel structure fire retardant coating, epitomizing the forefront of fire safety technology. Crafted to redefine industry standards, its sleek design and robust adhesion ensure optimal protection for indoor steel structures. Combining a slim profile with unparalleled fire retardant capabilities, GT-NRP-Fp-BTCB-1 represents a paradigm shift in safety and design innovation. Trust in its superior performance to elevate the safety and aesthetic appeal of your indoor spaces, setting a new benchmark for fire protection solutions.
Base Treatment and Construction Methods:
1.Substrate treatment
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 Surface of new ordinary steel structure
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.
1.2 Galvanized steel surface
In order to ensure good bonding performance with fire retardant coatings, epoxy coating transition paint must be used before construction.
1.3 Old steel structure or old primer surface
1.3.1 If the primer is not damaged and the surface is clean, check the compatibility of the fire retardant paint 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.
1.3.2 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.
1.3.3 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 coating
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 matching diluent until it is suitable for brushing, but it should not exceed 10% of the paint amount.
2.2 This coating can be applied by brush, roller or spray. Each pass should be applied alternately horizontally, vertically and horizontally to make it 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 application 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 0.2-0.25mm).
2.6 Under normal temperature conditions, the construction interval should be more than 24 hours; if the temperature is too high or too low, the construction interval can be adjusted appropriately. If the temperature is greater than 20°C and the airflow is above 2m/s, you can generally apply two coats a day.
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 1.2-1.5mm (dry film), wrap the alkali-free fiberglass mesh cloth with an overlap of 5- 10cm, after adding the mesh, use a spatula to compact the mesh in one direction, and pay attention to the compaction of the corners and joints. The next step of construction can only be carried out after comprehensive compaction and ensuring that there are no hollow parts.
2.8. High humidity and low gas flow or low temperature of the steel may cause condensation on the steel, resulting in poor adhesion of the paint, or even cracking, rolling, and peeling.
3.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 rain, soaking, and exposure to the sun are strictly prohibited during construction and use of the coating. If it is used in a semi-enclosed state for a long time, a high-performance topcoat must be applied.
2. 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.
3. The temperature during transportation and storage of this coating shall not be lower than 0℃.
4. It is strictly prohibited to add other ingredients to this coating, and it is not allowed to be mixed with other coatings.
Here's a hypothetical positive review from a customer regarding their experience with GT-NRP-FP-BTCB-1 Indoor Intumescent Steel Structure Fire Retardant Paint, covering their transaction, delivery, construction, and service process:
Customer:
"Our company decided to enhance the safety of our facilities by using GT-NRP-FP-BTCB-1 for our indoor steel structure fire retardant paint. From our initial contact with the manufacturer, the entire process went smoothly. Their sales team provided timely and professional advice, helping us select the product that suited our needs and provided detailed quotes and delivery information."
Transaction:
"We were satisfied with the product's performance and pricing, so we decided to proceed with the manufacturer. Their sales team was responsive, streamlining the transaction process for us and promptly handling order and payment matters. The entire process was efficient, and we were impressed with our experience dealing with them."
Delivery:
"The paint we ordered was delivered on time and well-protected during transit. The manufacturer communicated with us promptly, ensuring we were accurately informed about the delivery status and expected delivery dates. Their professionalism instilled confidence in the quality of the product and reliability of the service."
Construction:
"Once the paint arrived at our facilities, we began construction immediately. The application of GT-NRP-FP-BTCB-1 was straightforward, and our staff quickly mastered the correct application methods. The paint coated our steel structures evenly, forming a robust fire barrier upon drying. The entire construction process proceeded smoothly without any issues or delays."
Service:
"The entire process of working with the manufacturer was a pleasant experience. Their customer service team maintained a friendly and professional attitude throughout, always ready to answer our questions and address our needs. Their attention and care made us feel valued, and we are highly satisfied with the service they provided."
These reviews highlight the customer's positive impressions of the product performance, transaction process, delivery quality, construction efficacy, and customer service. Such positive feedback is crucial for fostering customer relationships and enhancing brand reputation.