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The High-Strength 34.0mm K7 Polyamide Strips are designed to provide excellent thermal insulation for aluminum doors, windows, and curtain wall systems. These strips help to reduce heat transfer, improving energy efficiency in both residential and commercial buildings.
Made from PA66GF25, these polyamide strips are engineered for durability and long-term performance. They offer exceptional resistance to temperature fluctuations, making them suitable for high-performance aluminum structures in demanding environments.
These polyamide insulating profiles fit seamlessly into aluminum frameworks, ensuring a tight connection that enhances the overall strength of the system. Their unique design helps minimize the risk of displacement during installation, ensuring reliable and secure performance.
These insulation strips comply with the latest industry standards, including GB/T23615.1-2017, ensuring that they meet the required performance criteria for thermal insulation. The strips also come with ISO 9001:2015 certification, confirming their high quality and reliability.
With a production capacity of 40,000 meters per month and fast delivery times, these polyamide thermal break strips are an ideal choice for large-scale building projects. Custom packaging options are available to meet your specific requirements, and we offer flexible trade terms to support your project needs.
Delivery Date | 7-15Days | Brand Name | Yuanfa |
Product Name | Thermal break Polyamide Strips, | Material | PA66GF25 |
Color | Black | Width | 34mm |
Density | 1.30±0.05 g/cm3 | Standard Length | 6 Meters/Piece |
Certificate | Certificate of ISO 9001:2015,CN09/20301 | Processing | High Precision Polyamide Extrusion |
Standard Carried | New National Standard:GB/T23615.1-2017 | Applications | Aluminium Profiles,Thermally Broken |
These polyamide insulation strips are an essential component in modern building systems. Their high thermal performance and durable construction make them ideal for use in energy-efficient aluminum frameworks. Contact us to discuss how these thermal break strips can be customized to fit your specific project needs.
These polyamide thermal break strips significantly reduce heat transfer, improving energy efficiency in aluminum doors, windows, and curtain walls. By preventing heat bridges within aluminum frames, they help cut down on heating and cooling costs.
The strips are designed for durability, with high-strength PA66GF25 material that resists deformation. This ensures long-lasting performance in demanding environments, even under dynamic load or extreme weather conditions.
The advanced polyamide extrusion technology ensures a perfect fit with aluminum profiles, reducing assembly errors. The precise alignment minimizes the risk of displacement, enhancing the overall stability and strength of the structure.
These thermal break profiles are highly resistant to moisture, UV exposure, and chemical corrosion. This resistance ensures that they maintain their insulating properties and physical integrity over an extended service life.
The polyamide insulating profiles for aluminum doors and windows comply with RoHS and other global environmental standards. They contain no harmful substances and are an eco-friendly choice for sustainable construction projects.
These strips offer a range of applications across industries. They are ideal for energy-efficient aluminum door and window systems, high-rise facade systems, and industrial heat isolation needs in high-temperature environments.
By enhancing thermal insulation, these strips support green building goals and meet modern energy efficiency standards. They provide superior performance for buildings aiming to reduce environmental impact and operational costs.
Whether in cold or hot climates, these strips help maintain stable internal temperatures. Their superior thermal isolation capabilities make them suitable for buildings in extreme weather conditions, ensuring comfort year-round.
High-performance aluminum door and window systems: Enhance energy efficiency and reduce operational costs.
Facade systems: Improve structural integrity and wind resistance in high-rise buildings.
Industrial thermal isolation: Used in equipment and environments requiring high temperature stability.
Extreme climate buildings: Ensure stable temperatures in both hot and cold regions.
These polyamide insulation strips are designed for modern, energy-efficient buildings, offering long-term durability, superior insulation, and high mechanical strength.
Q1: How do polyamide thermal break strips improve the energy efficiency of aluminum doors and windows?
A1: These strips reduce heat transfer, preventing energy loss and maintaining comfortable indoor temperatures, reducing heating and cooling costs for aluminum systems.
Q2: Can polyamide insulating profiles withstand extreme weather conditions?
A2: Yes, they are highly resistant to UV exposure, moisture, and temperature fluctuations, ensuring durability and maintaining thermal performance in harsh environments.
Q3: Are these thermal break strips environmentally friendly?
A3: Yes, they comply with RoHS and global environmental standards, making them a sustainable choice for energy-efficient and eco-conscious construction projects.
Q4: What is the ideal application for polyamide insulation strips?
A4: They are ideal for aluminum door, window, and curtain wall systems, providing superior thermal insulation in high-performance buildings and extreme climate environments.
Q5: How do polyamide thermal break strips contribute to building sustainability?
A5: They enhance thermal insulation, reducing the need for heating and cooling, supporting green building goals, and lowering a building's overall carbon footprint.
Q6: Are these insulation strips easy to install?
A6: Yes, their precise fit with aluminum profiles ensures simple and error-free installation, saving time during the assembly of energy-efficient building systems.
Q7: What industries benefit from using polyamide insulation strips?
A7: These strips are used in various industries, including construction, industrial equipment, and high-temperature applications, ensuring thermal isolation and stability.
