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Polyester
OEM, OED
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China
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Greenhouses provide an optimal environment for plant growth, protecting crops from external weather conditions and pests. However, excessive heat and sunlight can harm plants, leading to poor yield. This is where shade netting comes into play. Shade nets help regulate temperature and sunlight exposure, creating a balanced environment for plant growth.
Shade netting is a protective covering made from woven or knitted polyethylene fabric designed to reduce sunlight intensity inside a greenhouse. It comes in different densities, colors, and materials, each catering to specific agricultural needs.
Shade nets work by filtering sunlight, reducing heat buildup, and preventing water loss. Depending on the density, they allow a controlled amount of sunlight to penetrate while ensuring optimal airflow and moisture retention.
Greenhouse Shade Netting
Greenhouse Shade Netting
Greenhouse Shade Netting
AAS10 combines good heat retention with maximum transmission of light. They are ideal for saving energy both day and night.
The knitted structure of the screen protects from dews by allowing sufficient airtiow.
It is a highly UV stabilized product with excellent antistatic properties. The screen will stay clean and effcient for many years.
The applied UV-stabilizers are resistant to all common chemicals used in greenhouses. The thermal shrinkage is less than 1.0%, under 70℃ for 2 hours.
The unique knitted structre of screen reduces condensation, allowing them to be bundled to a small size for maximum available light.
This screen ca be used under all types of greenhouse cover.It can be installed as sliding system or hanging system in combination with polyesteer lines.
We use the newest and high level machine from America to do aging test of screen. The machine combines high concentration of fluorescent, UV light and other functions, which can simulate natural environment of Florida and Arizona, such as UV light, rain, high temperature, high humidity, dew and balck light and so on. Through the simulation of the natural environment again and again, and automation operation, to get the finally testing data. This can reproduce the damage of screen caused by natural environment for several years.
Greenhouse Shade Netting 
Greenhouse Shade Netting
Greenhouse Shade Netting
Greenhouse Shade Netting
| Model | Material | Structure | System | Width | Application | Flame-retardant |
| DI12-5 | 100% Poylester | Transparent full | Sliding,Hanging | 430cm | inside in greenhouse | NO |
| DI12-5 Blue | 100% Poylester | Transparent full | Sliding,Hanging | |||
| DI12 | 52% Poylester, 48% Polyolefin | Transparent full | Sliding,Hanging | |||
| DIPES12 | 100% Poylester | Transparent diffuse full | Sliding,Hanging | |||
| DIR12 | 75% Polyolefin, 25% Polyester | Transparent full | Rolling | |||
| DIR12 S | 100% Poylester | Transparent diffuse full | Rolling | |||
| DI12-5 FR | 100% Poylester | Transparent full | Sliding,Hanging | YES | ||
| DI12 FR | 100% Poylester | Transparent full | Sliding,Hanging | |||
| DI12 S FR | 100% Poylester | Transparent diffuse full | Sliding,Hanging | |||
| DIR12 FR | 80% Polyolefin, 20% Polyester | Transparent full | Rolling | |||
| DIR12 S FR | 84% Polyolefin, 16% Polyester | Transparent diffuse full | Rolling |
| Model | Mechanical properties | Physical property | ||||
Weight (g/㎡) | Width of strip (mm) | Light transimission in sunlight (%) | Light transmission when overcast(%) | Shading level (%) | Energy saving (%) | |
| DI12-5 | / | 5 | 89 | 82 | 11 | 45 |
| DI12-5 Blue | 66±5 | 5 | 71 | 66 | 29 | 45 |
| DI12 | 57 | 4 | 88 | 79 | 12 | 43 |
| DIPES12 | 64 | 4 | 87 | 80 | 13 | 43 |
| DIR12 | / | 4 | 83 | 77 | 17 | 45 |
| DIR12 S | / | 4 | 89 | 78 | 28 | 45 |
| DI12-5 FR | / | 5 | 89 | 82 | 11 | 47 |
| DI12 FR | 57 | 4 | 87 | 80 | 13 | 47 |
| DI12 S FR | 57 | 4 | 85 | 76 | 15 | 47 |
| DIR12 FR | / | 4 | 71 | 65 | 29 | 45 |
| DIR12 S FR | / | 4 | 72 | 63 | 28 | 45 |
Breaking New Ground with Vertical Farming
Zhejiang, Jiashan
This isn't your traditional greenhouse. It's China's first fully enclosed, intelligent three-dimensional seedling greenhouse factory—a mouthful, but in simpler terms, it's a completely controlled vertical farm that maximizes space and efficiency. With just 720 square meters of planting area, this revolutionary system can cultivate a staggering 13.14 million seedlings per year. That's enough to support 6,000 acres of traditional agricultural fruit and vegetable planting—all from a single, compact space.
Strawberry Heaven with Advanced Tech
Zhejiang, Tonglu
This plastic film greenhouse is a highly efficient and economical solution for strawberry cultivation. Featuring a suspended trough system, it elevates plants, minimizing disease risks while enhancing airflow and sunlight exposure. To sustain ideal growing conditions, an advanced wet curtain and fan system regulates temperature and humidity through evaporative cooling. Additionally, its ventilated roof improves air circulation, preventing excessive heat and moisture buildup. This innovative design boosts strawberry yield and quality while lowering management costs, making it ideal for modern farming.
Venlo Glass Greenhouse
Jiangsu, Taizhou
This multi-span glass greenhouse, built on a Venlo structural framework, offers an optimized growing space. It includes planting troughs ideal for strawberries and dedicated seedbeds for seedlings and flowers. To enhance plant development, a precision-engineered shading net moderates light exposure, while a wet curtain fan system regulates airflow and humidity. This carefully balanced environment fosters healthy crop growth, ensuring optimal conditions for cultivation. The combination of advanced climate control and strategic design makes this greenhouse highly efficient for diverse agricultural needs.
Shade netting offers numerous benefits for greenhouse farming, making it a must-have for growers. Below are some key advantages
Excessive direct sunlight can cause sunburn on plants, leading to poor growth and reduced yield. Shade netting provides filtered light, preventing heat stress and promoting healthier plant development.
By reducing heat buildup, shade netting helps maintain an optimal temperature inside the greenhouse. This is especially important in hot climates, where overheating can damage crops.
Shade netting lowers evaporation rates, meaning plants retain more moisture for longer periods. This reduces the need for frequent watering, making it an excellent water conservation tool.
By creating a balanced environment, shade netting ensures plants receive the right amount of sunlight and air circulation. This leads to stronger, healthier plants and higher crop yields.
Many pests and birds can damage crops by feeding on leaves, fruits, or seedlings. Shade netting acts as a physical barrier, reducing insect attacks and preventing birds from destroying crops.
Excessive heat and moisture fluctuations can cause fungal diseases like powdery mildew and blight. Shade netting helps maintain stable conditions, minimizing the risk of such diseases.
Compared to other greenhouse coverings like glass or plastic, shade netting is more affordable and easier to install. It is also durable and long-lasting, making it a cost-effective investment.
Since shade netting naturally regulates temperature, it reduces reliance on artificial cooling systems like fans or air conditioners, lowering energy consumption.
Shade netting can be used for vegetables, fruits, flowers, and even medicinal plants. Different shade percentages allow farmers to customize their greenhouse conditions based on crop requirements.
Shade netting promotes sustainable agriculture by reducing water usage, minimizing chemical pesticide needs, and creating an eco-friendly growing environment.
These advantages make shade netting an essential component for successful greenhouse farming. By investing in the right type of shade net, growers can improve crop quality, reduce costs, and maximize profits while maintaining an environmentally friendly approach.
Shade netting is a crucial addition to any greenhouse, offering temperature control, sun protection, and improved plant growth. Choosing the right shade percentage and proper installation can significantly enhance productivity.
Transparent Energy-saving Screen Shade Netting For Greenhouse.pdf
Vegetable Greenhouse
Fruit Greenhouse
Flower Greenhouse
Seedling Greenhouse
Aquaculture Greenhouse
Laboratory Greenhouse
Commercial Greenhouse
Restaurant Greenhouse
Yes, but the shade percentage should be chosen based on the plant's light requirements.
Yes, it can help regulate temperatures even in colder months.
No, it filters and reduces sunlight intensity based on its density.
It optimizes light diffusion, improving photosynthesis efficiency.
Yes, but ensure proper ventilation to avoid overheating.
Greenhouses provide an optimal environment for plant growth, protecting crops from external weather conditions and pests. However, excessive heat and sunlight can harm plants, leading to poor yield. This is where shade netting comes into play. Shade nets help regulate temperature and sunlight exposure, creating a balanced environment for plant growth.
Shade netting is a protective covering made from woven or knitted polyethylene fabric designed to reduce sunlight intensity inside a greenhouse. It comes in different densities, colors, and materials, each catering to specific agricultural needs.
Shade nets work by filtering sunlight, reducing heat buildup, and preventing water loss. Depending on the density, they allow a controlled amount of sunlight to penetrate while ensuring optimal airflow and moisture retention.
Greenhouse Shade Netting
Greenhouse Shade Netting
Greenhouse Shade Netting
AAS10 combines good heat retention with maximum transmission of light. They are ideal for saving energy both day and night.
The knitted structure of the screen protects from dews by allowing sufficient airtiow.
It is a highly UV stabilized product with excellent antistatic properties. The screen will stay clean and effcient for many years.
The applied UV-stabilizers are resistant to all common chemicals used in greenhouses. The thermal shrinkage is less than 1.0%, under 70℃ for 2 hours.
The unique knitted structre of screen reduces condensation, allowing them to be bundled to a small size for maximum available light.
This screen ca be used under all types of greenhouse cover.It can be installed as sliding system or hanging system in combination with polyesteer lines.
We use the newest and high level machine from America to do aging test of screen. The machine combines high concentration of fluorescent, UV light and other functions, which can simulate natural environment of Florida and Arizona, such as UV light, rain, high temperature, high humidity, dew and balck light and so on. Through the simulation of the natural environment again and again, and automation operation, to get the finally testing data. This can reproduce the damage of screen caused by natural environment for several years.
Greenhouse Shade Netting Greenhouse Shade Netting
Greenhouse Shade Netting
Greenhouse Shade Netting
| Model | Material | Structure | System | Width | Application | Flame-retardant |
| DI12-5 | 100% Poylester | Transparent full | Sliding,Hanging | 430cm | inside in greenhouse | NO |
| DI12-5 Blue | 100% Poylester | Transparent full | Sliding,Hanging | |||
| DI12 | 52% Poylester, 48% Polyolefin | Transparent full | Sliding,Hanging | |||
| DIPES12 | 100% Poylester | Transparent diffuse full | Sliding,Hanging | |||
| DIR12 | 75% Polyolefin, 25% Polyester | Transparent full | Rolling | |||
| DIR12 S | 100% Poylester | Transparent diffuse full | Rolling | |||
| DI12-5 FR | 100% Poylester | Transparent full | Sliding,Hanging | YES | ||
| DI12 FR | 100% Poylester | Transparent full | Sliding,Hanging | |||
| DI12 S FR | 100% Poylester | Transparent diffuse full | Sliding,Hanging | |||
| DIR12 FR | 80% Polyolefin, 20% Polyester | Transparent full | Rolling | |||
| DIR12 S FR | 84% Polyolefin, 16% Polyester | Transparent diffuse full | Rolling |
| Model | Mechanical properties | Physical property | ||||
Weight (g/㎡) | Width of strip (mm) | Light transimission in sunlight (%) | Light transmission when overcast(%) | Shading level (%) | Energy saving (%) | |
| DI12-5 | / | 5 | 89 | 82 | 11 | 45 |
| DI12-5 Blue | 66±5 | 5 | 71 | 66 | 29 | 45 |
| DI12 | 57 | 4 | 88 | 79 | 12 | 43 |
| DIPES12 | 64 | 4 | 87 | 80 | 13 | 43 |
| DIR12 | / | 4 | 83 | 77 | 17 | 45 |
| DIR12 S | / | 4 | 89 | 78 | 28 | 45 |
| DI12-5 FR | / | 5 | 89 | 82 | 11 | 47 |
| DI12 FR | 57 | 4 | 87 | 80 | 13 | 47 |
| DI12 S FR | 57 | 4 | 85 | 76 | 15 | 47 |
| DIR12 FR | / | 4 | 71 | 65 | 29 | 45 |
| DIR12 S FR | / | 4 | 72 | 63 | 28 | 45 |
Breaking New Ground with Vertical Farming
Zhejiang, Jiashan
This isn't your traditional greenhouse. It's China's first fully enclosed, intelligent three-dimensional seedling greenhouse factory—a mouthful, but in simpler terms, it's a completely controlled vertical farm that maximizes space and efficiency. With just 720 square meters of planting area, this revolutionary system can cultivate a staggering 13.14 million seedlings per year. That's enough to support 6,000 acres of traditional agricultural fruit and vegetable planting—all from a single, compact space.
Strawberry Heaven with Advanced Tech
Zhejiang, Tonglu
This plastic film greenhouse is a highly efficient and economical solution for strawberry cultivation. Featuring a suspended trough system, it elevates plants, minimizing disease risks while enhancing airflow and sunlight exposure. To sustain ideal growing conditions, an advanced wet curtain and fan system regulates temperature and humidity through evaporative cooling. Additionally, its ventilated roof improves air circulation, preventing excessive heat and moisture buildup. This innovative design boosts strawberry yield and quality while lowering management costs, making it ideal for modern farming.
Venlo Glass Greenhouse
Jiangsu, Taizhou
This multi-span glass greenhouse, built on a Venlo structural framework, offers an optimized growing space. It includes planting troughs ideal for strawberries and dedicated seedbeds for seedlings and flowers. To enhance plant development, a precision-engineered shading net moderates light exposure, while a wet curtain fan system regulates airflow and humidity. This carefully balanced environment fosters healthy crop growth, ensuring optimal conditions for cultivation. The combination of advanced climate control and strategic design makes this greenhouse highly efficient for diverse agricultural needs.
Shade netting offers numerous benefits for greenhouse farming, making it a must-have for growers. Below are some key advantages
Excessive direct sunlight can cause sunburn on plants, leading to poor growth and reduced yield. Shade netting provides filtered light, preventing heat stress and promoting healthier plant development.
By reducing heat buildup, shade netting helps maintain an optimal temperature inside the greenhouse. This is especially important in hot climates, where overheating can damage crops.
Shade netting lowers evaporation rates, meaning plants retain more moisture for longer periods. This reduces the need for frequent watering, making it an excellent water conservation tool.
By creating a balanced environment, shade netting ensures plants receive the right amount of sunlight and air circulation. This leads to stronger, healthier plants and higher crop yields.
Many pests and birds can damage crops by feeding on leaves, fruits, or seedlings. Shade netting acts as a physical barrier, reducing insect attacks and preventing birds from destroying crops.
Excessive heat and moisture fluctuations can cause fungal diseases like powdery mildew and blight. Shade netting helps maintain stable conditions, minimizing the risk of such diseases.
Compared to other greenhouse coverings like glass or plastic, shade netting is more affordable and easier to install. It is also durable and long-lasting, making it a cost-effective investment.
Since shade netting naturally regulates temperature, it reduces reliance on artificial cooling systems like fans or air conditioners, lowering energy consumption.
Shade netting can be used for vegetables, fruits, flowers, and even medicinal plants. Different shade percentages allow farmers to customize their greenhouse conditions based on crop requirements.
Shade netting promotes sustainable agriculture by reducing water usage, minimizing chemical pesticide needs, and creating an eco-friendly growing environment.
These advantages make shade netting an essential component for successful greenhouse farming. By investing in the right type of shade net, growers can improve crop quality, reduce costs, and maximize profits while maintaining an environmentally friendly approach.
Shade netting is a crucial addition to any greenhouse, offering temperature control, sun protection, and improved plant growth. Choosing the right shade percentage and proper installation can significantly enhance productivity.
Transparent Energy-saving Screen Shade Netting For Greenhouse.pdf
Vegetable Greenhouse
Fruit Greenhouse
Flower Greenhouse
Seedling Greenhouse
Aquaculture Greenhouse
Laboratory Greenhouse
Commercial Greenhouse
Restaurant Greenhouse
Yes, but the shade percentage should be chosen based on the plant's light requirements.
Yes, it can help regulate temperatures even in colder months.
No, it filters and reduces sunlight intensity based on its density.
It optimizes light diffusion, improving photosynthesis efficiency.
Yes, but ensure proper ventilation to avoid overheating.
