• FRP grating for pollution discharge construcation System 1
  • FRP grating for pollution discharge construcation System 2
  • FRP grating for pollution discharge construcation System 3
  • FRP grating for pollution discharge construcation System 4
  • FRP grating for pollution discharge construcation System 5
  • FRP grating for pollution discharge construcation System 6
FRP grating for pollution discharge construcation

FRP grating for pollution discharge construcation

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Loading Port:
Tianjin
Payment Terms:
TT OR LC
Min Order Qty:
1000 m²
Supply Capability:
10000000 m²/month

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Specifications of FRP grating


- Meet ASTM E-84 AND ISO9001 
- Anti-corrosion floor 
- Anti-conductive 
- Walkway,platform,trench cover,fence,stair treads

- Surface treatment

- Concave,grit,smooth,covered

- Many colors can be chose: Red,yellow,grey,blue and other RAL colors

 


Common product specifications:





L×W×H(mm×mm×mm)

Center Distance(mm×mm)

Tendons relief(mm)

Module(mm)

1220×3660×38

38.1×38.1

7

38.5-41

1220×3660×30

38.1×38.1

7

30.5-32

1220×3660×25

38.1×38.1

6.8

25.5-27

1220×3660×50

50.7×50.7

7.5

50.5-52

1000×4038×38

38.1×38.1

7

38.5-41

1000×4038×25

38.1×38.1

6.8

25.5-27


 

Features of FRP Grating:


- Corrosion and Chemical resistant

- Slip-resistant

- High strength-to-weight ratio

- Ergonomic

- Low maintenance

- Fire retardant

- Easily fabricated and installed



Other positive features: 


Electrically and thermally non-conductive 
Ultra-violet resistant 
Provided in a number of grating thickness and panel sizes with many types of mesh size 
Offers bi-directional strength characteristic 
Impact resistance 
Electronically transparent

 

As FRP grating has so many excellent features,so now FRP grating are widely used in many fields.

 

Drilling platform,walkway,water treatment plant,car wash and so on.

 



Q:Are FRP pultrusion profiles resistant to chemicals used in food processing?
Yes, FRP (Fiber Reinforced Plastic) pultrusion profiles are highly resistant to chemicals used in food processing. They are specifically engineered to withstand harsh chemical environments, including the cleaning and sterilization agents commonly used in food processing facilities. This resistance makes FRP pultrusion profiles a suitable material choice for various applications in the food industry where chemical resistance is crucial.
Q:What are the environmental benefits of using FRP pultrusion profiles?
There are several environmental benefits associated with using FRP (Fiber Reinforced Polymer) pultrusion profiles. Firstly, FRP pultrusion profiles are lightweight and have a high strength-to-weight ratio. This means that less material is required to achieve the same structural integrity as traditional materials like steel or concrete. As a result, the production and transportation of FRP profiles consume less energy and generate fewer greenhouse gas emissions. Additionally, FRP pultrusion profiles are highly durable and resistant to corrosion, which increases their lifespan and reduces the need for frequent replacements. This not only saves resources but also reduces the amount of waste that ends up in landfills or requires recycling. Furthermore, FRP is non-conductive, making it an excellent alternative to metals in electrical applications. This property eliminates the risk of electrical accidents and reduces the need for insulation, which often involves hazardous materials. Moreover, the manufacturing process of FRP pultrusion profiles typically requires lower energy inputs compared to other materials. The pultrusion process itself is energy-efficient, and the raw materials used in FRP production, such as resins and fibers, can be sourced from renewable or recycled sources. Lastly, FRP pultrusion profiles are chemically inert and do not release harmful substances into the environment. This characteristic makes them suitable for various applications, such as water treatment plants, where avoiding chemical leaching is crucial for maintaining water quality. In conclusion, the environmental benefits of using FRP pultrusion profiles include reduced energy consumption, lower greenhouse gas emissions, extended product lifespan, decreased waste generation, decreased reliance on non-renewable resources, and minimized chemical leaching. These advantages make FRP a sustainable and eco-friendly choice for a wide range of industries.
Q:Can FRP pultrusion profiles be used in the construction and building materials industry?
Yes, FRP (Fiber Reinforced Polymer) pultrusion profiles can certainly be used in the construction and building materials industry. FRP pultrusion profiles are made by pulling continuous fibers through a resin bath and then into a heated die, which helps to cure the resin and shape the profile. One of the main advantages of FRP pultrusion profiles is their high strength-to-weight ratio. They are incredibly strong and durable, yet lightweight, making them an ideal choice for construction applications where weight reduction is desired. Additionally, FRP pultrusion profiles have excellent corrosion resistance, which is particularly beneficial in environments where moisture, chemicals, or harsh weather conditions may be present. This corrosion resistance extends the lifespan of building materials, reducing maintenance and replacement costs. FRP pultrusion profiles can be used in a wide range of construction applications, including structural components such as beams, columns, and trusses. They are also commonly used as reinforcements in concrete structures, providing additional strength and durability. In addition, FRP pultrusion profiles can be used for cladding, decking, handrails, ladders, and other non-structural elements in buildings. Furthermore, FRP pultrusion profiles offer design flexibility, as they can be easily customized and manufactured to specific shapes, sizes, and properties. This adaptability makes them suitable for a variety of construction projects, from small-scale residential buildings to large-scale industrial complexes. In summary, FRP pultrusion profiles are highly suitable for the construction and building materials industry due to their high strength-to-weight ratio, corrosion resistance, design flexibility, and versatility.
Q:Are FRP pultrusion profiles resistant to caustic solutions?
Yes, FRP pultrusion profiles are generally highly resistant to caustic solutions. The inherent chemical resistance of fiberglass-reinforced plastic (FRP) combined with the corrosion-resistant properties of the pultrusion manufacturing process make FRP pultrusion profiles an excellent choice for applications involving caustic solutions.
Q:Are FRP pultrusion profiles resistant to seismic activity?
FRP (Fiber Reinforced Polymer) pultrusion profiles are known for their high strength-to-weight ratio and excellent mechanical properties. However, when it comes to seismic activity, their resistance depends on various factors. In general, FRP pultrusion profiles can exhibit good resistance to seismic activity due to their inherent properties. The composite materials used in their construction, such as fiberglass and resin, offer high tensile strength and stiffness, making them capable of withstanding dynamic loads caused by earthquakes. Moreover, FRP pultrusion profiles have been extensively tested and proven to possess excellent fatigue resistance. This property is crucial during seismic events as structures are subjected to repeated dynamic loading. The ability of FRP profiles to withstand cyclic loading without suffering from fatigue failure significantly enhances their seismic resistance compared to traditional materials like steel or concrete. Another advantage of FRP pultrusion profiles in seismic activity is their lightweight nature. Their low weight reduces the overall mass of the structure, resulting in lower seismic forces. This weight reduction can lead to reduced seismic responses and less damage during an earthquake. However, it is important to note that the seismic resistance of FRP pultrusion profiles can be influenced by various factors. These include the design and quality of the profiles, the connection details, and the overall structural system in which they are used. Proper engineering and design considerations must be taken into account to ensure optimal performance and seismic resistance. In conclusion, FRP pultrusion profiles have the potential to offer good resistance to seismic activity due to their high strength, stiffness, and fatigue resistance. However, their performance in seismic events depends on various factors, and careful design and engineering practices are essential to maximize their seismic resistance.
Q:Are FRP pultrusion profiles resistant to automotive fluids?
Yes, FRP pultrusion profiles are generally resistant to automotive fluids. The inherent chemical resistance and durability of the fiberglass-reinforced plastic make it suitable for withstanding exposure to various automotive fluids such as oils, fuels, and coolants. However, it is essential to consider the specific type of fluid and consult the manufacturer's guidelines to ensure the optimal performance and longevity of the FRP profiles in automotive applications.
Q:Are FRP pultrusion profiles resistant to oils and greases?
Yes, FRP pultrusion profiles are generally resistant to oils and greases. The combination of fiberglass reinforcement and resin matrix in FRP pultrusions provides excellent resistance to various chemicals, including oils and greases. This makes them suitable for applications where exposure to oils and greases is expected.
Q:Are FRP pultrusion profiles resistant to impact and vibration?
Yes, FRP pultrusion profiles are generally resistant to impact and vibration due to their high strength-to-weight ratio and excellent flexural properties. The composite material used in the pultrusion process provides inherent toughness and durability, making FRP profiles suitable for applications where impact and vibration resistance are important considerations.
Q:Are FRP pultrusion profiles fire resistant?
FRP pultrusion profiles exhibit excellent fire resistance due to the combination of reinforcing fibers and the polymer matrix employed in their production. These profiles are crafted through the pultrusion process, wherein reinforcing fibers like fiberglass or carbon fiber are impregnated with a thermosetting resin. This resin undergoes a curing process, resulting in a robust and durable composite material. One of the primary advantages of FRP pultrusion profiles lies in their inherent fire resistance. The thermosetting resin utilized in their manufacture possesses properties that render it highly impervious to fire. When subjected to flames or elevated temperatures, the resin does not easily burn or melt, thereby impeding the propagation of fire. Moreover, the reinforcing fibers present in FRP profiles contribute significantly to their fire resistance. For example, fiberglass, being an inorganic substance, does not combust. It serves as a heat transfer barrier, aiding in the containment of flames. Additionally, FRP pultrusion profiles can be engineered to meet specific fire safety standards and regulations. By incorporating supplementary fire retardant additives or employing specialized resin systems, the fire resistance of these profiles can be further enhanced. It is crucial to note that although FRP pultrusion profiles do possess fire resistance, their precise fire rating may vary depending on the particular composition and design. Thus, it is imperative to consult manufacturers or suppliers who can furnish comprehensive information regarding the fire resistance properties of their FRP pultrusion profiles.
Q:Are FRP pultrusion profiles suitable for the manufacturing of boat hulls?
Yes, FRP (Fiber Reinforced Polymer) pultrusion profiles are suitable for the manufacturing of boat hulls. FRP pultrusion profiles offer several advantages that make them ideal for boat hull construction. Firstly, FRP pultrusion profiles are lightweight yet extremely strong and durable. This makes them ideal for boat hulls as the lightweight construction allows for improved fuel efficiency and increased speed. Additionally, the high strength-to-weight ratio ensures that the boat can withstand the stresses and strains of the water without compromising its structural integrity. Secondly, FRP pultrusion profiles are highly corrosion-resistant. This is a crucial characteristic for boat hulls as they are constantly exposed to water, salt, and other corrosive elements. The corrosion resistance of FRP pultrusion profiles ensures that the boat hull remains intact and retains its performance over time, reducing the need for frequent maintenance and repairs. Furthermore, FRP pultrusion profiles offer design flexibility. They can be easily molded into various shapes and sizes, allowing for customization and optimization of boat hull designs. This flexibility enables boat manufacturers to create hulls that are not only functional but also aesthetically appealing. In addition to their strength, durability, corrosion resistance, and design flexibility, FRP pultrusion profiles also offer excellent electrical and thermal insulation properties. This is particularly important for boat hulls as it helps to prevent electrical currents and heat from passing through the hull, ensuring the safety and comfort of passengers and crew. Overall, FRP pultrusion profiles provide an excellent solution for the manufacturing of boat hulls. Their lightweight, strong, and corrosion-resistant properties, along with design flexibility and insulation capabilities, make them an ideal choice for boat manufacturers looking to create high-performance and long-lasting vessels.

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