Polycarbonate service life

The versatile material polycarbonate, which is well-known for its strength and transparency, is essential to contemporary roofing solutions. A crucial component of any roofing project is its service life, which is determined by a number of variables that affect both its performance and longevity.

The inherent strength and resilience of polycarbonate against weathering is one of the main factors affecting its service life. Polycarbonate is a superior material for roofing in areas that frequently experience severe weather because it is extremely resistant to impact and hail damage, unlike more conventional roofing materials like metal or asphalt. Its resilience ensures that it endures the test of time and greatly increases its lifespan.

As sunlight naturally contains UV radiation, many building materials eventually become problematic. On the other hand, UV stabilizers are built into polycarbonate to prevent yellowing, deterioration, and loss of transparency. Its clarity is preserved by this UV protection, which also adds to its durability by guaranteeing that it will remain structurally sound for the duration of its service life.

A polycarbonate roof’s lifespan can be increased by performing critical maintenance and installation procedures correctly. Water leaks and structural stress are reduced when installation methods, such as sealing and fastening, are done correctly. Regular maintenance helps detect problems early and enables prompt repairs, extending the life of the polycarbonate roofing system. This includes cleaning to remove debris and looking for any signs of wear.

In summary, knowledge of the variables impacting polycarbonate roofing’s service life highlights the material’s dependability and appropriateness for a variety of architectural uses. With polycarbonate’s resistance to weathering, UV protection, and the need for correct installation and upkeep, builders and homeowners alike can choose this dependable and long-lasting roofing material with confidence.

"Anyone thinking about using polycarbonate for roofing needs to understand how long it lasts. The longevity of polycarbonate, a sturdy plastic, varies according to UV exposure, upkeep, and environmental circumstances. This article examines the average lifespan of polycarbonate roofs, variables that affect their toughness, and doable strategies to increase their longevity. Understanding how long polycarbonate lasts will help you make wise decisions and guarantee your roof is sturdy and functional for many years to come, whether you’re building a new roof or maintaining an old one."

Polycarbonate service life – how long the material is operated?

Science is advancing all the time. As new technologies are developed, a growing number of materials with superior qualities than those of their predecessors are created and introduced into the construction market. A really beautiful and useful design feature that provides natural lighting for the space is the glazing of different sections. Because silicate glass is fragile and has a relatively high specific gravity, it was unable to fully meet the builders’ requirements when used to decorate the walls and roof.

It has been replaced with a new material that has special technical properties. It’s polycarbonate, this one. It is nearly as transparent as glass, and it consistently outperforms it in strength. The service life of cellular polycarbonate may be several times longer than the manufacturer’s warranty period, depending on installation and maintenance techniques.

Technical characteristics of polycarbonate

Cellular and monolithic panels are used in a variety of construction applications. Cell material is typically used in the glazing of various surfaces, beginning with the visor over the porch and concluding with the sports complex’s roof.

This is because cell plates have the following benefits with nearly the same shock strength:

1. Low thermal conductivity. The panel of 8 mm thick has insulation qualities like a single -chamber double -glazed window.
2. Good sound insulation, which is much better than that of a cast.
3. Small specific gravity. In cellular material, it is 7-8 times less than monolithic plastic and 20-25 times less than that of silicate glass.
4. Safety of material. Polycarbonate does not distinguish harmful substances into the environment. When destroyed, the sheets do not break into sharp fragments, but retain the relative integrity, just cracked.
5. Constancy of indicators. High viscosity and unique chemical polymer formula supports its parameters in the given values, regardless of the temperature of the surrounding air.
6. Affordable price. The cost of mobile plastic is comparable to ordinary glass, but much lower than that of double -glazed windows.

For builders, the longevity of polycarbonate is crucial since replacing the glazing surface on a regular basis is an expensive procedure.

Polycarbonate panels service life

The great majority of manufacturers provide a ten-year warranty on polycarbonate. This period can actually last for a lot longer. There are a few mandatory handling guidelines that must be followed in order to extend the material’s operational life.

Therefore, compliance is essential to the long service life of polycarbonate coatings:

• storage conditions;
• transportation rules;
• installation technology;
• procedure and frequency of service.

Making the right choice regarding material thickness is also crucial. Therefore, the 4 mm and 6 mm polycarbonate materials may have different service lives in the greenhouse. Generally speaking, a thicker panel will last longer because it vibrates less and can withstand a significant shock and snow load.

Polymer cellular sheet storage

Cellular polycarbonate should be kept in a heated, enclosed warehouse. Lower temperatures have a detrimental effect on the material’s quality. Condensate buildup can also cause the panel to freeze and shatter.

It’s crucial to understand that you shouldn’t remove the protective film from the panels and open the factory packaging unless absolutely necessary.

Insects and dust will get inside the exposed product. Washing the internal cavities will then be very challenging. Additionally, slabs are safer to transport when packaged.

It is not advisable to place polycarbonate packaging back-to-back or against the wall in cold rooms, particularly during the winter months. Twelve-meter panels can grow up to 4-5 cm in length when overheated. Plastic sheets may distort and even break if there is an obstruction preventing them from expanding.

Storing goods outdoors without protection is a mistake. Excessive solar heating may cause the transport film to adhere to the sheet’s surface. It is separable in certain situations.

Pertaining to these basic and uncomplicated storage guidelines, polycarbonate may have a 20–25 year shelf life until installation.

The most hazardous stage in converting panels into a transparent roof is the transportation of cellular polycarbonate. Transporting sheets in their original factory packaging is preferred. If the merchandise is bought in pieces, it needs to be carried, either rolled into rolls or lying in the back.

Panels cannot be positioned on the side edges. It might harm them. Rolling into rolls is only possible with thin panels. Thick are resistant to twisting and have a wide bending radius. The material needs to be difficult to fix before transportation in order to prevent blows against the body walls.

Building transparent structures necessitates adhering to particular polycarbonate regulations. This material is very flexible in spite of its high strength. Furthermore, it exhibits significant temperature variations in its size. Its size can vary by up to 4 mm/m when the temperature is between -30 and +40 degrees Celsius.

Installing polycarbonate facades and roofs requires the following:

1. The protective film is removed only before the point mount.
2. Make a crate so that the plates do not sag.
3. For fastening, use the components intended for this – stainless self -tapping screws, thermals, profiles, seals and end tapes.
4. Make sure that when laying, the protective layer from ultraviolet radiation is on top.
5. Panel to place in vertical orientation of air channels.
6. Bent sheets only in the direction of stiffeners.
7. Drill holes in the sheets 3-4 mm more than the diameter of the screw or the legs of thermal.
8. During processing (drilling and sawing), prevent vibration and overheating of workpieces.
9. Do not pull the fasteners. He must, firmly holding the sheet, ensure its movement during thermal expansion.

It is not acceptable to lessen the bending radius specified on the package by the manufacturer when building arched structures. The plate’s outer surface may crack if it is bent too firmly. The destruction of plastic will occur quickly if the protective layer is violated.

Cellular polycarbonate requires routine maintenance just like any other facing material. The service life is largely dependent on this in many ways.

It consists of the subsequent items:

• replacement of broken and damaged parts;
• adjustment of the pressure level of thermomoshab;
• cleaning of panels cavities;
• Washing surfaces.

The assembly of polycarbonate structures typically takes place in the spring, following snowmelt and the development of a positive air temperature. Private farms’ farles and greenhouses gather a significant amount of dirt and other deposits on their surfaces throughout the winter.

The purity and level of transparency of the polycarbonate have a significant impact on how long it lasts in the greenhouse. The length of time that dirty plastic lasts to function decreases because it heats up and deforms more forcefully.

Any household detergent diluted in warm water can be used to clean the surface. Fat areas are thoroughly cleaned using an ethyl alcohol solution. It is not acceptable to use brushes or other abrasive materials as this can harm the protective layer and allow UV radiation to enter. Soft fabric is ideal for washing. Rubbing in one spot for an extended period of time is forbidden since it can harm the protective layer.

You can use a vacuum cleaner or compressor to get rid of soggy garbage. If the internal deposits are compacted, soaking them first in a soap solution, then rinsing and expelling the cells using compressed air will help.

Therefore, it is quite possible to extend the service life of polycarbonate up to several decades by adhering to the basic handling guidelines.

Comprehensive articles on monolithic and cellular polycarbonate. Russia Moscow.

Polycarbonate’s service life is contingent upon meeting the following requirements. The greenhouse’s cellular polycarbonate’s longevity is mostly dictated by its purity and..

Polycarbonate service life for the greenhouse

Cellular polycarbonate, 3.5 mm thick, 4 mm, and 6 mm thick, is used for greenhouses. Every single cellular polycarbonate sheet now has unilateral UV protection. The manufacturer guarantees a minimum warranty period of use of 5 years for cellular polycarbonate with a thickness of 3.5 mm, 8 years for polycarbonate with a thickness of 4 mm, and 10 years for premium polycarbonate with a double ultraviolet protection and thickness of 6 and 8 mm.

Additionally, how polycarbonate is stored (sheets cannot be kept in a twisted state for longer than a week) and how cellular polycarbonate is installed both affect how long it lasts. You can learn more about these factors by watching a brief video on our website.

It has been replaced with a new material that has special technical properties. It’s polycarbonate, this one. It is nearly as transparent as glass, and it consistently outperforms it in strength. The service life of cellular polycarbonate may be several times longer than the manufacturer’s warranty period, depending on installation and maintenance techniques.

Technical characteristics of polycarbonate

Cellular and monolithic panels are used in a variety of construction applications. Cell material is typically used in the glazing of various surfaces, beginning with the visor over the porch and concluding with the sports complex’s roof.

This is because cell plates have the following benefits with nearly the same shock strength:

Minimal heat conductivity. The 8 mm thick panel has the same insulating properties as a double-glazed, single-chamber window.

Excellent sound insulation—far superior to that of a cast.

Low specific gravity. It is 7-8 times lower in cellular material than in monolithic plastic and 20–25 times lower than in silicate glass.

Material safety. Hazardous substances are not distinguished from one another by polycarbonate. In the event of destruction, the sheets only crack rather than shatter into jagged pieces.

Stability of the indicators. Regardless of ambient air temperature, the high viscosity and distinct chemical polymer formula support its parameters at the specified values.

Reasonable cost. Comparable in price to regular glass, mobile plastic is significantly less expensive than double-glazed windows.

For builders, the longevity of polycarbonate is crucial since replacing the glazing surface on a regular basis is an expensive procedure.

Polycarbonate panels service life

The great majority of manufacturers provide a ten-year warranty on polycarbonate. This period can actually last for a lot longer. There are a few mandatory handling guidelines that must be followed in order to extend the material’s operational life.

Therefore, compliance is essential to the long service life of polycarbonate coatings:

• storage conditions;
• transportation rules;
• installation technology;
• procedure and frequency of service.

Making the right choice regarding material thickness is also crucial. Therefore, the 4 mm and 6 mm polycarbonate materials may have different service lives in the greenhouse. Generally speaking, a thicker panel will last longer because it vibrates less and can withstand a significant shock and snow load.

Polymer cellular sheet storage

Cellular polycarbonate should be kept in a heated, enclosed warehouse. Lower temperatures have a detrimental effect on the material’s quality. Condensate buildup can also cause the panel to freeze and shatter.

It’s crucial to understand that you shouldn’t remove the protective film from the panels and open the factory packaging unless absolutely necessary.

Insects and dust will get inside the exposed product. Washing the internal cavities will then be very challenging. Additionally, slabs are safer to transport when packaged.

It is not advisable to place polycarbonate packaging back-to-back or against the wall in cold rooms, particularly during the winter months. Twelve-meter panels can grow up to 4-5 cm in length when overheated. Plastic sheets may distort and even break if there is an obstruction preventing them from expanding.

Storing goods outdoors without protection is a mistake. Excessive solar heating may cause the transport film to adhere to the sheet’s surface. It is separable in certain situations.

Pertaining to these basic and uncomplicated storage guidelines, polycarbonate may have a 20–25 year shelf life until installation.

The most hazardous stage in converting panels into a transparent roof is the transportation of cellular polycarbonate. Transporting sheets in their original factory packaging is preferred. If the merchandise is bought in pieces, it needs to be carried, either rolled into rolls or lying in the back.

Panels cannot be positioned on the side edges. It might harm them. Rolling into rolls is only possible with thin panels. Thick are resistant to twisting and have a wide bending radius. The material needs to be difficult to fix before transportation in order to prevent blows against the body walls.

Building transparent structures necessitates adhering to particular polycarbonate regulations. This material is very flexible in spite of its high strength. Furthermore, it exhibits significant temperature variations in its size. Its size can vary by up to 4 mm/m when the temperature is between 30 and 40 degrees Celsius.

Installing polycarbonate facades and roofs requires the following:

• The protective film is removed only before the point mount.
• Make a crate so that the plates do not sag.
• For fastening, use the components intended for this – stainless self -tapping screws, thermals, profiles, seals and end tapes.
• Make sure that when laying, the protective layer from ultraviolet radiation is on top.
• Panel to place in vertical orientation of air channels.
• Bent sheets only in the direction of stiffeners.
• Drill holes in the sheets 3-4 mm more than the diameter of the screw or the legs of thermal.
• During processing (drilling and sawing), prevent vibration and overheating of workpieces.
• Do not pull the fasteners. He must, firmly holding the sheet, ensure its movement during thermal expansion.
• When creating arched structures, it is unacceptable to reduce the bending radius indicated by the manufacturer on the package. If the plate is bent too hard, then the outer surface can crack. Violation of the protective layer will lead to the rapid destruction of plastic.

Cellular polycarbonate requires routine maintenance just like any other facing material. The service life is largely dependent on this in many ways.

It consists of the subsequent items:

• replacement of broken and damaged parts;
• adjustment of the pressure level of thermomoshab;
• cleaning of panels cavities;
• Washing surfaces.

The assembly of polycarbonate structures typically takes place in the spring, following snowmelt and the development of a positive air temperature. Private farms’ farles and greenhouses gather a significant amount of dirt and other deposits on their surfaces throughout the winter.

The purity and level of transparency of the polycarbonate have a significant impact on how long it lasts in the greenhouse. The length of time that dirty plastic lasts to function decreases because it heats up and deforms more forcefully.

Any household detergent diluted in warm water can be used to clean the surface. Fat areas are thoroughly cleaned using an ethyl alcohol solution. It is not acceptable to use brushes or other abrasive materials as this can harm the protective layer and allow UV radiation to enter. Soft fabric is ideal for washing. Rubbing in one spot for an extended period of time is forbidden since it can harm the protective layer.

You can use a vacuum cleaner or compressor to get rid of soggy garbage. If the internal deposits are compacted, soaking them first in a soap solution, then rinsing and expelling the cells using compressed air will help.

Therefore, it is quite possible to extend the service life of polycarbonate up to several decades by adhering to the basic handling guidelines.

The proper installation of cellular polycarbonate (a link to the video is provided) and proper storage (sheets cannot be kept in a twisted state for longer than one week) are the two main factors affecting the polycarbonate’s service life on the greenhouse.

Correctly extend the service life of polycarbonate

The majority of summer residents construct greenhouses in their communities in order to grow premium, eco-friendly crops. Greenhouses used to be constructed with wood as the base material and covered with either glass or regular film coating. Polycarbonate is widely used in modern times; its primary benefit is that it lasts a long time. Nevertheless, everyone is curious about how to increase polycarbonate’s service life.

What are the terms of using the material

Based on global manufacturers’ guarantees, the average duration is approximately 15 years. It should be noted that the material’s chemical and physical properties won’t change and that, with proper use, it will last even longer than the stated time.

Guidelines for prolonging the polycarbonate’s useful life:

1. Favorable storage conditions.
2. Cautious transport delivery.
3. Proper installation and dismantling.
4. Careful care.

Recall the three fundamental guidelines that need to be considered when making a purchase:

• Only a UV stabilizer should be used to cover;
• You are obliged to provide warranty documents officially confirmed, where all the nuances of the operation must be indicated without fail;
• For proper transportation, packaging of the manufacturer and other auxiliary materials is used;
• You are required to inspect the material on integrity: minor scratches, cracks and holes on the outer layer; If you buy color material, the paint should be homogeneous; The protective coating cannot be swollen.

The technologies utilized in the production of the items and parts that make them up. European producers guarantee their high-quality panels, which are made using only primary raw materials. A straightforward method for determining the material’s quality (thickness up to ten millimeters) is to start a wave-like formation by holding the polymer leaf over the edge. The "wave effect" cannot occur if low-quality raw materials were used in the manufacturing process.

How to renew the life of the material

1. The structure must be installed away from shrubs and trees. If the outer polymer layer recesing the branches, then this can damage the film to protect the material, as a result, the term of use will be reduced.
2. Polymer plastic must sometimes be cleaned of accumulated dust mud. It is easy to wash it with pure water. Remember, do not use products for washing, powders and other household chemistry, they will corrode a protective layer or leave scratches on the surface. You can add only a little soap to the water, dissolve it in front of the washing process.
3. For washing, use only a rag of soft fabrics, for convenience you can wind it on a mop or other tool. Do not use cruel brushes or washcloths. Even if you cause small mechanical damage to UV protection, then after a certain time it will become unfit for use.
4. Когда наступает пора обильных снежных зим, то следует не забывать вовремя убирать с крыши построенной конструкции все скопившиеся осадки. Profile arcs can bend due to the severity of snow and the coating will deteriorate. Also, if the snow is a little smells, and then sharply turns into ice, due to a decrease in temperature, it is also able to harm polycarbonate.

Advice: Before spring, disassemble the polymer sheets and store them in a dry, clean space if you choose not to use the greenhouse during the winter.

What is the material’s actual operating period?

As previously stated, the official confirmation of warranty obligations by global brands dates back approximately fifteen years; however, experience has shown that these indicators are much lower than reality. Because they consider the likelihood of random deformation following an irresponsible treatment with polycarbonate as the material basis during manufacture.

A summer cottage made of polycarbonate will last for a very long time if you follow all the guidelines, take good care of the greenhouse, mount and disassemble it carefully, and store it properly. You now understand the proper method for extending polycarbonate’s service life.

You can find out how to extend the deadline for using polymer sheets by reading our in-depth article.

Polycarbonate for greenhouses

A few years ago, glass and polyethylene film were widely used in the manufacture of greenhouses. Today polycarbonate for greenhouses is used much more often. Glass is stronger than a plastic film, but it is not capable of maintaining heat for a long time. Polycarbonate – Great replacement. These are transparent panels that are obtained in the process of casting. Their thickness ranges from 2 to 12 mm. They can be monolithic and cellular. Monolithic polycarbonate (rice. 1) is characterized by high impact resistance. It is higher than that of organic glass, 10 times. The strength of the usual window glass is exceeded 200 times. Even strong strokes of hail and stones are not afraid of this material. Therefore, polycarbonate is used for the manufacture of barriers along the highway, sports complexes, in schools and hospitals, at stores and in other places.

For greenhouses, you must select high-quality polycarbonate.

A significant amount of monolithic polycarbonate is non-combustible. He is fire-only liquefied. The open flame extinguishes on its own after it has been exposed. 90% of the world is absent from the material. The properties are the same for regular glass. However, UV light is also retained by polycarbonate. Its surface is coated with a protective layer to accomplish this. He is not very heavy. This enables the construction of light-colored resting buildings. The polycarbonate can withstand temperature variations between -40 and +120 °C. It is able to fully retain all of its characteristics in these temperature ranges.

Chemicals, paints, different oils, and pollution are easily washed off and leave no surface residue. Polycarbonate can be bent to create domes, cylinders, and arches.

Polycarbonate characteristics

The polycarbonate cellular structure.

The sheet molding and granules are swimming during the production process. The sheet’s thickness for greenhouses and greenhouses is 0.3 mm. Partitions provide it with strength and support. This sheet weighs three times less than acrylic and ten times less than glass. Advantages of the substance:

• high light outlet;
• thermal insulation properties;
• the material bends well;
• has a small weight;
• It is well cut by a construction knife;
• It will drill well.

Negative property: as temperature changes, the material contracts and widens.

For every degree Celsius, the material expands or narrows by 0.065 mm per 1 m. This needs to be considered when constructing a greenhouse. Special fasteners must be used to secure the material. In addition, you must allow for unrestricted movement on a 2 mm basis. Drilling the holes with the appropriate allowances is necessary for this.

Using polycarbonate

Comparing polycarbonate of high and low quality.

Cellular polycarbonate for greenhouses is obtained as a result of melting polycarbonate granules. Next is the connection of sheets with stiffeners. By their number and by the thickness of the sheet, one can judge its strength. The cellular structure of the material scatters the light well, and it does not burn young shoots in the greenhouse and in the greenhouse. To protect against ultraviolet radiation, sheets are covered with a protective layer. The material bends perfectly. This makes it possible to build visors, roofs above the porch in the form of domes and arches. Cellular polycarbonate differs from monolithic good properties of the heat insulator. All this thanks to the large number of air layers formed by stiffeners. But in strength, it is slightly inferior to a monolithic analogue. It is difficult to use as protection at the stadium or on the street, but for the construction of greenhouses it is the perfect material.

You can currently purchase multi -colored sheets. You can choose white panels, transparent or yellow. For the construction of roofs on the verandas, you can buy sheets of green, blue and red. There is a color of opal and bronze. The standard dimensions of the polycarbonate sheet are as follows: width – 210 cm, length – 2 m, 6 m, and 12 m. For a conventional greenhouse, it is better to buy a material with a thickness of 6 mm. It bends perfectly and has all the positive characteristics. For winter operation, you can take a thickness of 8 and 10 mm. Such sheets will better withstand the weight of snow. The use of polycarbonate for a greenhouse requires sheets 6 and 12 m long. You should choose sheets from the protection against ultraviolet rays applied to them. Chinese products often do not have it, and their service life is approximately 2-3 years. After this period, the plastic begins to clutch and collapse. We should talk in more detail about some products.

Polycarbonate manufacturers

Image 1: Compared to glass, monolithic polycarbonate is much stronger.

Many people pay close attention to the price of polycarbonate when purchasing it. It might turn out that I didn’t get the plastic I was hoping for. Certain dishonest producers identify their goods by using lights. She is renowned for using low-quality, lightweight materials. Instead of the designated 4 mm, the sheet sizes will only be 3.5 mm. And there will be a mismatch of any size. There is hardly any difference—just 0.5 mm. However, the material’s lifespan is shortened, making the purchase unprofitable.

Carboglass creates products of superior quality. The company offers a fifteen-year guarantee. The price of a standard sheet measuring 210×600 mm and having a thickness of 6 mm starts at 6,000 rubles.

For 4,600 rubles, the Russian manufacturer Novattro guarantees the functionality of its products for 14 years. The sheet that is 6 m long has a thickness of 6 mm.

Plastilux, a SunNex trademark, offers a guarantee of fewer than eight years. Cost: starting at 5000 rubles.

The Visor trademark was formerly owned by China, but the production facility is now in the Czech Republic. We can describe the product quality as mediocre. Warranty: five years. The cost is 2700 rubles. for every sheet.

Chinese producers of Italon polycarbonate are requesting a sheet that is 2400 rubles thick and measures 6 mm. Five years of warranty.

Actual: a creation of Safplast Innovativ, a Russian manufacturer. He creates reasonably high-quality economy class sheets. The sheets are supple. They typically serve for eight years.

Varieties of polycarbonate structures found in cells.

Russian-Israeli polygal production. The plastic is reasonably priced, easily bendable, and strong and long-lasting. Ten years or more is the service life.

Chinese polycarbonate, or VINPUL. It is very soft and delicate. It is inexpensive. Three years is the maximum duration of service.

Sanks are a Chinese brand. Brittle and incomplete in its installation. approximately four years of service.

Marlon is a British manufacturer’s product. both cost and quality are excellent. Service period: ten years or more.

You choose the material for your summer cottage. Seven guidelines ought to be followed in any event:

1. Use only transparent material.
2. A protective layer should be applied to it.
3. The thickness of the sheets can be from 4 to 10 mm.
4. Stiffeners should be directed vertically.
5. Connect sheets with the base with special profiles.
6. Do not save on fasteners.
7. Quality material is not cheap.

Polycarbonate color appears appealing, but it absorbs light slowly. The shielding side needs to be outward facing. You need a suitable frame for thick material. Instructions typically include recommendations. a diameter that is marginally bigger. Screws that self-tap are inserted 30 cm after being positioned 5 cm from the edge. You should never use nails to secure the overlapped sheets. Special end profiles and ribbons need to be used to seal the ends. They won’t be bothered by the dirt and dust within the sheet. Never select the least expensive material.

Your site’s greenhouses and greenhouses made of this material will produce fewer fragrant fruits and berries over time.

Everyone has known for a long time that polycarbonate is the best material to cover greenhouses and greenhouse structures. Building these structures at a temperature of roughly 10 °C is advised. Avoid buying economy-class plastic. Generally speaking, it is brittle and cannot support the weight of snow during the winter. To grow seedlings, a greenhouse 4 m in length and 2.5 m in power is sufficient. This plastic is used to make glazing for balconies and pools, as well as advertising structures.

Glass and polyethylene film were commonly used in the construction of greenhouses a few years ago. Today, polycarbonate is used far more frequently in greenhouses.

Anyone thinking about using polycarbonate roofing for their roof needs to be aware of how long the material lasts. Because of its strength and longevity, polycarbonate is a popular material for a variety of roofing applications. The quality of the material, installation techniques, and environmental factors are some of the variables that can affect how long polycarbonate lasts.

With the right upkeep and attention, polycarbonate roofs can typically last 10 to 30 years or longer. When installed properly, high-quality polycarbonate sheets can tolerate harsh weather conditions like hail, strong winds, and UV exposure without rapidly degrading. Because of its durability, polycarbonate roofing requires fewer replacements than some other roofing materials, making it a more affordable option over time.

Maintaining polycarbonate roofing properly is essential to extending its life. Premature aging can be avoided with routine cleaning to get rid of dirt, debris, and any mold or algae growth. The clarity and structural integrity of the polycarbonate sheets can also be maintained by using cleaning solutions that are compatible with them and avoiding abrasive materials when cleaning.

It’s crucial to remember that although polycarbonate roofing is strong, things like poor installation or insufficient ventilation can shorten its lifespan. Inadequate installation methods, like overtightening fasteners or using the wrong spacing between them, can eventually cause stress points and cracking. Sufficient ventilation beneath the roof mitigates temperature variations and lowers the possibility of thermal expansion that might harm the roofing material.

Video on the topic

You need to know about polycarbonate! Why is it destroyed? How to mount and handle cell

How I increased the service life of polycarbonate on my greenhouse by 2 times.

How to extend the service life of polycarbonate?