Glasswool Sandwich Panels
Glasswool Sandwich Panels
Glasswool sandwich panels are high-performance building materials known for their excellent thermal insulation, sound absorption, and fire resistance properties. These panels consist of a core made from glass wool, which is sandwiched between two layers of metal, typically steel or aluminum. Glass wool, also known as fiberglass insulation, is made from recycled glass and sand, and it is renowned for its fibrous texture and insulating capabilities.
Key Features:
Thermal Insulation
Glasswool panels provide superior thermal insulation, helping to maintain temperature control and improve energy efficiency in buildings.
Sustainability
Glass wool is made from recycled materials and is recyclable, making it an environmentally friendly choice.
Lightweight
Glasswool panels are lightweight, making them easy to handle, transport, and install.
Durability
The combination of glass wool se se and metal facings ensures high durability and structural integrity.
Fire Resistance
Glass wool is non-combustible and can withstand high temperatures, providing excellent fire resistance.
Moisture Resistance
These panels have low water absorption, ensuring they remain effective in humid conditions and resist mold and mildew growth.
Sound Absorption
The fibrous structure of glass wool effectively absorbs sound, making these panels ideal for acoustic insulation.
In summary, glasswool sandwich panels are versatile and effective solutions for various construction and insulation needs. They offer superior thermal insulation, sound absorption, and fire resistance, making them ideal for a wide range of applications in industrial, commercial, and residential buildings. Their lightweight nature and durability further enhance their appeal as a high-performance building material.
Glasswool Panels Technical Parameter:
| Parameter | Value/Range | Significance |
|---|---|---|
|
Thermal Conductivity |
0.030 to 0.040 W/mK |
Lower values indicate better insulation properties. |
|
Density |
40 to 80 kg/m³ |
Affects structural strength and thermal insulation. |
|
Core Thickness |
50mm to 150mm |
Varies based on application and required insulation. |
|
Panel Length |
Up to 2.4 meters (customizable) |
Typically used in shorter lengths due to flexibility. |
|
Panel Width |
Typically 1 to 1.2 meters |
Standard width for easy installation.
|
|
Compressive Strength |
5 to 25 kPa |
Indicates the panel's ability to withstand compressive loads. |
|
Tensile Strength |
10 to 20 kPa |
Indicates resistance to tension forces. |
|
Water Absorption |
Less than 1% by volume |
Ensures panels remain effective in humid conditions. |
|
Fire Resistance |
A1 (Non-combustible) |
Excellent fire resistance, crucial for safety. |
|
Thermal Resistance (R-value) |
Varies with thickness (e.g., R-value for 100mm ≈ 3.0 m²K/W) |
Higher values indicate better insulation. |
|
Surface Coating/Fascia |
PPGI/PPGL or other protective layers |
Enhances durability and moisture resistance. |
|
Operating Temperature |
-50°C to +250°C |
Indicates the range of temperatures the panels can effectively operate within. |
|
Sound Insulation |
25 to 60 dB |
Provides excellent acoustic insulation. |
Applications:
Industrial Buildings: Provides thermal and acoustic insulation, enhancing the efficiency and comfort of industrial spaces.
Commercial Buildings: Ideal for offices and commercial spaces where soundproofing and fire resistance are crucial.
Residential Buildings: Enhances energy efficiency and safety in homes, offering thermal and sound insulation.
Partitions and Ceilings: Used in creating soundproof and insulated partitions and ceilings.
Roofing and Cladding: Offers durable, fire-resistant, and insulated solutions for roofs and external walls.
HVAC Systems: Often used in ducting and HVAC systems for its thermal and acoustic properties.
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