Thermal break polyamide strip - High temperature resistant & High cost performance

Introduction to Thermal break polyamide strip

Thermal break polyamide strips, produced by Wuhan Yuanfa New Materials Co., Ltd., are crucial for enhancing energy efficiency in building construction. These high-performance strips are made from advanced polyamide materials and are specifically designed to interrupt thermal bridging in window and door frames. By reducing heat transfer between the interior and exterior of a building, they help minimize energy loss in winter and heat gain in summer. This results in better insulation, improved comfort, and energy savings. Manufactured to be durable and moisture-resistant, these strips contribute to the overall sustainability and energy efficiency of buildings.

Key Features & Advantages

1. High Temperature Resistant

Performs effectively in extreme temperature conditions, ensuring long-lasting insulation.

2. High Cost Performance

Offers a balance of affordability and exceptional energy-saving benefits, providing value for money.

3. Durability

Resistant to wear and tear, ensuring a long service life without compromising performance.

4. Improved Energy Efficiency

Minimizes heat transfer, leading to reduced energy consumption and lower utility costs.

5. Enhanced Comfort

Helps maintain a stable indoor temperature, improving the comfort of building occupants.

6. Sustainability

Contributes to eco-friendly building practices by enhancing energy efficiency and reducing environmental impact.

Application

Doors and Windows

Energy Efficiency: They are commonly used in aluminum doors and windows to reduce heat transfer, helping maintain indoor temperature and comfort.

Preventing Thermal Bridging: These strips reduce heat flow between the inside and outside of a building, minimizing cold air infiltration and temperature fluctuations.

Curtain Walls & Facades

Minimizes thermal bridging in high-rise buildings,Helps comply with green building codes.

HVAC & Air Handling Units (AHU)

Reduces thermal bridging in AHU frames.Improves energy efficiency by preventing heat exchange.Maintains consistent internal temperatures

Energy Savings and Environmental Benefits

Lower Energy Consumption: By reducing the load on heating and cooling systems, these strips help save energy and lower carbon emissions.

Eco-friendly: The material contributes to sustainability by minimizing energy waste.

Industrial Uses

Thermal Insulation for Machinery: These strips are used in machinery to prevent heat loss and control temperatures, especially in cooling and heating systems.

Building and Transport: They are also used for insulation in transportation and building applications, enhancing thermal efficiency in extreme conditions.

External Structures

Strength and Insulation: Thermal break polyamide strips are used in window and door frames to improve strength and provide thermal insulation, especially in areas with harsh climates.

In summary, thermal break polyamide strips help improve energy efficiency, reduce energy consumption, and provide better insulation, contributing to both comfort and sustainability.

Types and Categories of Thermal Break Polyamide Strip

Polyamide Insulating Profiles For Aluminum Doors & Windows

Polyamide Profiles For Aluminum Facade & Curtain Wall System

Polyamide Operating Rods

Thermal insulation strip

A thermal insulation strip is a key component in improving the energy efficiency of buildings. Typically made from materials like rubber, foam, or polyamide, these strips are designed to prevent heat transfer between different areas, such as the interior and exterior of a building. They are commonly used in window frames, door seals, and gaps between building materials. Thermal insulation strips help reduce energy consumption by minimizing heat loss in colder months and preventing heat gain during warmer months. In addition, they enhance indoor comfort by maintaining stable temperatures and reducing drafts. These strips are durable, easy to install, and contribute to overall environmental sustainability by lowering energy demands.

Thermal barrier profile

A thermal barrier profile is a structural element used in windows, doors, and facades to minimize heat transfer between the interior and exterior of a building. Typically made from materials such as polyamide, aluminum, or fiberglass, these profiles are designed to interrupt the flow of heat, reducing thermal bridging and enhancing energy efficiency. By incorporating thermal barrier profiles, buildings can achieve better insulation, leading to reduced energy consumption, lower heating and cooling costs, and improved occupant comfort. These profiles are often used in conjunction with thermal break materials like polyamide strips, ensuring that heat is effectively blocked while maintaining the strength and durability of the frame. Thermal barrier profiles also contribute to the sustainability of buildings by improving energy performance and reducing environmental impact.

PA66 GF25% for heat insulation strip

PA66 GF25 (25% Glass Fiber Reinforced Polyamide) is a high-performance plastic with excellent thermal insulation properties, widely used in applications requiring high-temperature resistance and mechanical strength. The material is enhanced with 25% glass fiber, improving its rigidity and strength, providing better dimensional stability and tensile resistance. PA66 GF25 not only has a high heat deflection temperature but also exhibits good electrical insulation properties, making it suitable for thermal insulation strips, heat-resistant components, and protection of electronic parts in high-temperature environments. Its outstanding heat resistance allows the material to maintain strong structural integrity even under elevated temperatures, making it particularly effective in applications within the automotive, electronics, and home appliance industries, especially for components where thermal management and insulation are critical.

FAQs

Q: What are the benefits of using PA66 GF25 for thermal insulation strips?

A: PA66 GF25 offers excellent heat resistance, high strength, and good dimensional stability for insulation.

Q: What is a thermal break polyamide strip?

A: A thermal break polyamide strip reduces heat transfer between two parts, improving energy efficiency.

Q: How does a thermal barrier profile work?

A: It separates areas with different temperatures, preventing heat transfer and improving insulation.

Q: Can PA66 GF25 be used in automotive applications?

A: Yes, it’s used in automotive parts that require heat resistance and durability, like insulation strips.

Q: How do thermal insulation strips improve energy efficiency?

A: They reduce heat transfer, helping maintain temperature and reducing energy use for heating/cooling.

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+86-27-61866980

E-mail

yf_trade@yuan-fa.com

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No.1 Mingfu Road Shekou, Huangpi District, Wuhan, Hubei Province, China