Photovoltaic Reflecting Film Manufacturers

Basic Info.: 


Technical Data


Base Fabric

High strength low braided polyester yarn

DIN EN 60001

Titer of Yam(denier)



Yam Count(yarn/cm)


DIN EN 1049-2

Total Weight(g/m)



Total Thickness(mm)



Tensile Strength(N/5cm)


DIN 53354

Tear Strength(N)


DIN 53363



DIN 53357

Infrared Transmittance



Infrared Reflectivity



Ultraviolet Transmittance



Ultraviolet Reflectance



Vapor Transmission g/(m2-24h)



Oxygen Transmission/(m2-24h)



Total Volatile Organic Compounds


GB/T 1883-2002

Threshold Temperature


DINEN 1876-2

Surface Treatment


Back Acrylic

Flame Retardancy


DIN 4102


Outdoor tent shed, construction, cold chain industry storage transportation, warehousing, energy saving field.


High barrier, high barrier to oxygen, water vapor, smell, fragrance, etc.

The material has good color fastness, anti-aging, anti-corrosion and moisture-proof effect.


Width: 0.83M

Photovoltaic reflection film width: 0.78M

Unilateral reservation: 0.05M

Product Performance:

Excellent insulation performance; Can reflect up to 99% of radiation energy conduction, convection and radiation; High barrier brings excellent anticorrosion and moisture-proof

function; Thermal reflection insulation: the use of high reflection characteristics to reflect the heat radiation back, different from conventional absorption heat insulation materials; Can

effectively avoid secondary radiation heat transfer; Green energy saving: control the radiation energy of sunlight and objects, reduce the energy consumption of refrigeration and heating.



    Information to be updated

Zhejiang Xinria Textile Material Co., Ltd.

Company Profile

Zhejiang Xinria Textile Material Co., Ltd. is professional China Photovoltaic Reflecting Film manufacturers and Wholesale Photovoltaic Reflecting Film factory. It is a high-tech enterprise specializing in the production of PVC coated fabrics, PVC mesh fabrics, TPU mesh fabrics, mesh fabrics, and architectural membranes. The company is located in Haining Qianjiang Industrial Park. Since its establishment, it has been committed to the research, development, production and sales of high-quality architectural membranes and coated fabrics.

Our company's Photovoltaic Reflecting Film have been widely used in large public facilities: park landscape architecture, parking sheds, inflatable membrane structures, large stadiums, airport facilities and other architectural fields. Advanced technology in the field of European membrane materials, the products sell well in domestic and foreign markets, and have won unanimous praise from customers.

The company has always been adhering to the business philosophy of excellence and continuous innovation, relying on advanced equipment and technology, and forward-looking scientific research spirit to Photovoltaic Reflecting Film high-quality products. Cooperate with new and old customers to win-win and create a better future.


Understand the latest market dynamics and industry trends

Industry knowledge

Prospects for Photovoltaic Reflecting Film
Photovoltaic reflecting films, also known as reflective backsheet films or mirror films, have promising prospects in the field of solar energy. These films are designed to improve the efficiency and performance of photovoltaic (PV) modules by reflecting unused sunlight back onto the solar cells. Here are some key prospects and advantages associated with photovoltaic reflecting films:
    Increased Energy Output: By reflecting sunlight back onto the solar cells, reflecting films can increase the amount of light absorbed by the PV modules. This can lead to improved energy generation and higher overall system efficiency. The increased energy output can be particularly beneficial in areas with lower solar irradiation or during suboptimal weather conditions.
    Improved Temperature Management: Reflective films can help reduce the operating temperature of PV modules by reflecting a portion of the incoming sunlight. By reducing heat absorption, these films can mitigate the negative effects of high temperatures, such as reduced efficiency and accelerated aging of the solar cells. Improved temperature management can enhance the long-term performance and reliability of the PV system.
    Cost-effectiveness: Photovoltaic reflecting films offer a cost-effective solution to enhance the performance of existing PV installations. Instead of replacing entire modules or systems, installing reflective films on the backsheet of solar panels is a relatively simple and economical retrofit option. This can provide a significant boost in energy production without major capital investments.
    Versatility and Compatibility: Reflecting films can be used with various types of PV modules, including crystalline silicon, thin-film, and other emerging technologies. They are compatible with different module sizes and configurations, making them suitable for both rooftop installations and utility-scale solar farms. This versatility allows for widespread adoption across different solar applications.
    Durability and Longevity: Reflecting films are engineered to withstand harsh environmental conditions, including UV exposure, temperature fluctuations, and moisture. They are designed to be durable and provide long-term performance in outdoor settings. The materials used in these films offer resistance to degradation, ensuring their effectiveness over the lifespan of the PV system.
    Aesthetics and Design Integration: Reflective films can be designed with different colors, patterns, or even transparent options, allowing for customization and integration into various architectural designs. This flexibility in aesthetics enables their use in building-integrated photovoltaics (BIPV) and other applications where the appearance of solar panels is important.
As solar energy continues to expand globally and the demand for higher efficiency and lower costs increases, photovoltaic reflecting films hold significant promise. They offer a practical and cost-effective solution to improve energy output, enhance system performance, and contribute to the growth of renewable energy adoption.