heating reflection fabric as window curtain
Product Description
Heating reflection Fabric with high-tech materials reflect sunlight, using a mirror reflection principle, light reflective layer is formed by a special knitting technology with thermal insulation, UV protection and other functions.
Instinct with the sun reflecting foil characteristics, Polycore window curtain fabric can effectively block heat transfer, indirectly reduce the indoor temperature, reducing the frequency of operation of the air conditioning compressor, really Being able to do energy saving, to provide people with a comfortable and bright environment in living.
Polycore Heating reflection fabric performance:
Polycore sun-reflected fabric which is based on the principle of specular reflection employs high-tech materials and advanced knitting technology to form a light-reflecting layer. It has advantages such as heat insulation,UV protection etc. As Aluminum foil has the characteristics of reflect sunlight, which could effectively block heat transfer, indirectly reducing indoor temperatures and reduce the frequency of operation of the air conditioning compressor and energy saving, thus provides a comfortable and bright environment for human life.
F1001
F1002
F1003
F1004
F1005
F1006
F1007
FEISL heating reflection window fabric test report
Tested institution:
National Center for Quality Supervision and Test of Building Engineering Materials
Tested fabric model :F804002
Tested item | Tested result | Tested standard |
Visible light transmission ratio | 5% | GB/T2680-1994 |
visible light reflection rate | 73% | |
Direct transmittance of sunlight | 6% | |
Direct reflection ratio of sunlight | 73% | |
solar energy total transmission rate | 11% | |
shading coefficient | 0.12 | |
transmittance ratio of UV | 2 | |
Solar shading ratio | 89 |
Tested fabric model :F1001
Tested item | Tested result | Tested standard | |
Shading Coefficient Datum | Sample tested area | 2.4m2 | GB/T2680-1994 JG/T281-2010 |
Infill panel area | 0 | ||
Average temperature of hot chamber air | 34.8°C | ||
Average temperature of cold chamber air | 26.0°C | ||
Wind speed of hot chamber | 3.0m/s | ||
Wind speed of cold chamber | 0.1m/s | ||
Radiant illumination of glass surface | 980W/m2 | ||
Reference heat gain | 775.0W/m2 | ||
Fabric Shading Coefficient | Sample tested area | 2.4m2 | |
Infill panel area | 0 | ||
Average temperature of hot chamber air | 34.9°C | ||
Average temperature of cold chamber air | 26.6°C | ||
Wind speed of hot chamber | 3.0m/s | ||
Wind speed of cold chamber | 0.1m/s | ||
Radiant illumination of glass surface | 956W/m2 | ||
Resultant heat | 278.5W/m2 | ||
0.36 | |||
UV shading ratio | 97.6% | ||
Indoor Refrigerating power comparison
Test condition matching to JG/T281-2010 (Test method for thermal insulation performance of architectural shading products), fabric F1001,fabric F3003 applied indoor and without fabric indoor, indoor refrigerating power comparison result.
Tested Fabric samples photo
Technical Data Sheet
| MATERIALS: | POLYESTER/METALLIC YARN | |
| SIZE: | 2m 2.5m 3m 50m/VOLUME | |
| WEIGHT: | 230g/sq.m | |
| STRUCTURE: | PLAIN WEAVE | |
| COLOR FASTNESS : | 6 ALOVE | |
| ENERGY-SAVING COEFFICIENT: | ACCORDING TO THE REPORT | |
| SURFACE TREATMENT: | NANO COATING | |
| TENSILE STRENGTH: | WARP/LENGTH 350(N) WEFT/WIDTH 1600(N) | |
| FLAME RETARDANT GRADE: | ACCORDING TO THE REPORT | |
| APPLI CATION: | CAN BE USED FOR ROLLING SHUTTERS BLINDS, CEILING BLINDS, SCREEN CURTAINS AND SO ON TECHNICAL DATA |