Application of FRP pipe

Glass fiber reinforced pipes are widely used in various industries for their excellent product performance. And it has played an important role in various industries.

 

A. Petroleum, chemical, pharmaceutical, biogas industry: such as chlor-alkali, potassium sulfate fertilizer, paper, acid regeneration system.

 

B. Water treatment industry including desalination, industrial wastewater treatment output and input, pure water system.

 

C. Liquid transportation industry: urban water supply, urban drainage, irrigation systems.

 

D. Power industry: flue gas flue, desulfurization system, circulating water, cable pipe, glass fiber reinforced plastic chimney.

 

E. Environmental protection: sewage odor recovery, workshop waste gas treatment, factory air purification, biogas desulfurization and purification.

 

F. Other applications: Manufacturing process vessels

 

Industry Standard: ASME RTP-1-2007 Reinforced Thermoset Plastic Corrosion-Resistant Equipment is an American Society of Mechanical Engineers standard for the fabrication of vessels for use in corrosive and noncorrosive applications at pressures up to 15 psig. Manufacturers must be ASME RTP-1 certified.

 

Above and Below Ground* FRP Potable Water Tanks

 

Applications: National and state parks, schools, campgrounds, cisterns, resorts

 

Industry Standards: Materials meet NSF Standard 61 - Drinking Water System Components - Health Effects and * UL 1316

 

Above and Below Ground* Non-potable FRP Fireproof Water Tanks

 

Application: Standby fire protection water storage.

 

INDUSTRY STANDARDS: Conforms to NFPA 22: Private Fire Protection Water Tanks (2014), AWWA D120 Aboveground Thermoset Fiberglass Reinforced Water Tanks and AWWA D121 Bolted Aboveground Thermoset Fiberglass Reinforced Plastic Panel Tanks and *UL 1316.

 

Above and below ground* oil/water separators

 

Applications: 1,000 to 30,000 gallon separator systems.

 

Industry Standards: Compliant with UL Subject 2215, U.S. Coast Guard Test Method 46 CFR 162.050, API Bulletin Numbers 421 and 1630. EPA Test Methods 413.1 and 413.2 and *UL 1316.

 

Underground* FRP Chemical Storage Tanks

 

Applications: Agricultural chemicals, road treatment chemicals, irrigation system collection, water treatment chemicals, leachate, refinery runoff, airport de-icing (glycol), medical emergency drainage collection, firefighting foam storage, paint manufacturing, acid wash solutions, fish hatchery water, pharmaceutical manufacturing catch basins, leather processing chemicals.

 

Industry Standards: UL 1316 compliant, materials include a matrix of high quality resins, fiberglass and fillers, compatible with the above chemical materials.

 

Underground residential FRP tanks for septic systems

 

Applications: 1,000 and 1,500 gallon septic systems.

 

Industry Standards: Meets International Association of Plumbing and Mechanical Officials IAPMO PSI-2000A standards

 

The main reasons for the increased use and popularity of fiberglass are key benefits such as high strength-to-weight ratio, dimensional stability, good mechanical properties, ease of installation, reduced installation costs, lower maintenance costs, and overall durability under extreme conditions. Likewise, another advantage of fiberglass tubing over traditional construction materials is its smoother inner surface. This characteristic, with its smooth inner bore, resists scale deposits and can produce greater service fluid flow throughout the life of the project.

 

What is FRP pipe?

The complete form of FRP is glass fiber reinforced plastic, which is a composite material consisting of a fiber-reinforced polymer matrix. Thus, FRP pipe is a pipe manufactured from FRP material by contact molding or fiber winding methods. Various types of resins, such as thermosetting polyesters, epoxy resins, phenolic resins, etc., are used to obtain specific FRP pipe properties in the final product. The most widely used reinforcement material is glass fiber "E-glass". FRP piping systems are used worldwide as a corrosion resistant alternative to metal piping. FRP piping systems are available in a variety of sizes, ranging from 1" to 144".

 

FRP pipe is manufactured by a winding process that reinforces thermosetting epoxy resins with continuous glass filaments. As the resins cure, they undergo an irreversible chemical reaction, giving them excellent resistance to temperature changes, while the glass fibers give them excellent mechanical strength. In microtunnels, steel casing is used for jacking where significant force is required. frp pipe is now widely used for this purpose because of the reduced force of hydraulic jacks, making it cost effective and also allowing longer lengths to be installed. frp can also be used for non-excavation repair methods such as slip lining. frp is resistant to corrosion and chemicals, making it an ideal material for pipes carrying such wastewater.

 

Classification of FRP pipes

According to the shape of media, FRP vessels can be divided into three categories of liquid, gas, solid tank; according to the pressure grade,can be divided into two categories of ATM tank and pressure tank; According to shape of vessel, can be divided into three categories of horizontal cylinder tank, vertical cylinder tank, rectangle tank; And PVC/FRP, PP/FRP, PVDF/FRP composite tanks.

 

Applications of FRP pipes

The use of FRP piping is increasing due to its high durability, corrosion resistance and moderate strength.FRP piping systems are used in various industries, such as

Drinking water and seawater desalination industries

Chemical, petrochemical, oil and gas industries.

Piping and ventilation ducts

Irrigation and sanitation services

Water distribution and delivery

Slurry piping

Power plants, etc.

 

Hebei Yongchang Composite Material Technology Co., Ltd is professional FRP vessel manufacturer in China, depend on the sophisticated technique, creditable quality, good prestige,It can be designed and manufactured according to customer requirements, with various sizes and configurations. We can manufacture pipes of any specification and pressure, and can make PVC / FRP, PP / FRP, PVDF / FRP and other composite pipes according to the service conditions. Our designers can calculate the circumferential stress, axial stress and bending Poisson's ratio coefficient of the product according to your available space, chemical fluid requirements and applicable natural conditions, and then give the product selection, product thickness and delamination. Contact us, you can get our professional advice according to the use scenario!

How FRP Pipe is Constructed?

 

 

Three different processes are commonly used to fabricate fiber reinforced plastic pipe: centrifugal casting, filament winding, and hand lay-up. Filament winding and centrifugal casting are used to make pipe up to approximately 12 inches in diameter, with filament winding being the most common. Hand lay-up is generally used for larger diameter pipes, and for asymmetric shapes.

 

Centrifugal Casting

The centrifugal casting process involves layering glass cloth on the inside walls of a tubular mold which is rotated at high speed. Catalyzed liquid resin is then injected into the rotating mold. Centrifugal force ensures that the reinforcing fibers are thoroughly saturated with resin and serves to drive out air bubbles that might compromise the physical properties of the pipe. The mold continues to rotate while the resin cures.

 

Filament Winding

In filament winding, continuous fiberglass filaments, called rovings, are saturated with catalyzed liquid resin and helically wound around polished steel mandrels. Typically, the fibers are fed through a mechanical device that moves up and down the length of the rotating mandrels. The resin is then cured at elevated temperatures and the finished pipe is removed from the mandrel.

Filament winding results in the highest fiber-to-resin ratio of the three fabrication methods and consequently offers the highest strength-to-weight ratio. This is the method used by Waco Boom.

 

 

Hand Lay-up

As the name suggests, hand lay-up is a manual fabrication process. It involves building up layers of chopped glass or woven glass mat impregnated with catalyzed resin around a suitable mold. Special metal rollers are used to improve glass wet-out and force out trapped air bubbles. Hand lay-up is generally used only for custom shapes or for large-diameter pipe where filament winding or centrifugal casting is not practical.

 

FRP Pipe Manufacturer & Supplier

Our Yongchang glass fiber reinforced plastic / FRP pipes are designed and manufactured according to customer requirements, with various sizes and configurations. We can manufacture pipelines of any specification and pressure and can be made into composite pipelines such as PVC/FRP, PP/FRP, PVDF/FRP, etc., according to the conditions of use. If you are interested in our products, please contact us for more information.

What is the difference between FRP and GRP?

FRP stands for Fiber Reinforced Plastic, a term commonly used in North America in the U.S. GRP is a term that means the same thing. However, it is commonly used in Europe and Asia to stand for glass fiber reinforced plastic.

 

What is fiber reinforced plastic/polymer (FRP)?

 

Fiber reinforced polymers consist of two main components; fibers and a polymer matrix. In FRP, the fibers are embedded in a polymer matrix. This structure provides chemical and physical properties that are completely different from the properties of the individual materials. In fact, these materials meet higher engineering requirements than ordinary materials. As a result, composites are used in less sophisticated very complex and demanding manufacturing tasks. The mechanical, civil, biomedical, marine and aerospace industries are the main users of composites.

 

The main role of fibers is to provide strength and stiffness to the material. However, the fibers alone are brittle (e.g., glass). Therefore, fibers are encapsulated in a polymer material coating. The polymer matrix holds the fibers in their position and transfers the load between the fibers. It also contributes to the interlaminar shear strength.

 

The following fibers are used in composites: E glass, S glass, quartz, aramid (Kevlar 49), Spectra 1000, carbon (AS4), carbon (IM-7), graphite (P-100) and boron. Polyester, vinyl ester, epoxy, bismaleimide, polyimide, and phenolic resins are the polymers used. Each polymer has different chemical and physical properties; therefore, contributes differently to the composite structure. As a result, the properties of the composites also vary from polymer to polymer.

 

Polyester and vinyl are low-cost materials and are therefore widely used in commercial applications. Epoxy resins are used in high-performance continuous fiber matrices. It also outperforms vinyl and polyester under high temperature conditions. Bismaleimide and polyimide are high temperature resin matrices used in temperature critical engineering applications. Phenolic resins are high-temperature resin systems with good smoke and fire resistance; therefore, they are used in aircraft interiors.

Fiber reinforced polymers consist of two main components; fibers and a polymer matrix. In FRP, the fibers are embedded in a polymer matrix. This structure provides chemical and physical properties that are completely different from the properties of the individual materials. In fact, these materials meet higher engineering requirements than ordinary materials. As a result, composites are used in less sophisticated very complex and demanding manufacturing tasks. The mechanical, civil, biomedical, marine and aerospace industries are the main users of composites.

 

The main role of fibers is to provide strength and stiffness to the material. However, the fibers alone are brittle (e.g., glass). Therefore, fibers are encapsulated in a polymer material coating. The polymer matrix holds the fibers in their position and transfers the load between the fibers. It also contributes to the interlaminar shear strength.

 

The following fibers are used in composites: E glass, S glass, quartz, aramid (Kevlar 49), Spectra 1000, carbon (AS4), carbon (IM-7), graphite (P-100) and boron. Polyester, vinyl ester, epoxy, bismaleimide, polyimide, and phenolic resins are the polymers used. Each polymer has different chemical and physical properties; therefore, contributes differently to the composite structure. As a result, the properties of the composites also vary from polymer to polymer.

 

Polyester and vinyl are low-cost materials and are therefore widely used in commercial applications. Epoxy resins are used in high-performance continuous fiber matrices. It also outperforms vinyl and polyester under high temperature conditions. Bismaleimide and polyimide are high temperature resin matrices used in temperature critical engineering applications. Phenolic resins are high-temperature resin systems with good smoke and fire resistance; therefore, they are used in aircraft interiors.

 

What is Glass Reinforced Plastic (GRP) / Glass Fiber Reinforced Plastic (GFRP)?

 

Glass Reinforced Plastic, commonly known as fiberglass, is a fiber reinforced polymer that contains glass fibers in a composite structure. The polymer is usually epoxy, polyester or vinyl. Fiberglass materials are commonly used in high performance recreational aircraft and gliders, boats, automobiles, bathtubs, hot tubs, water tanks, roofing products, pipes, cladding, castings, surfboards, and exterior door skins.

Glass Reinforced Plastic, commonly known as fiberglass, is a fiber reinforced polymer that contains glass fibers in a composite structure. The polymer is usually epoxy, polyester or vinyl. Fiberglass materials are commonly used in high performance recreational aircraft and gliders, boats, automobiles, bathtubs, hot tubs, water tanks, roofing products, pipes, cladding, castings, surfboards, and exterior door skins.

 

Yongchang is one of FRP pipe suppliers and produce FRP chemical tank, can be customized, flexible process, high anti-aging performance, excellent corrosion resistance, welcome to consult.

 

 

Why Do You Need The FRP Pipe?

 

 

FRP pipe, also called fiberglass reinforced pipe, is a light, high-strength, and corrosion-resistant non-metallic pipe. With its excellent chemical resistance, light weight, high strength, non-scaling, strong shock resistance, long service life compared with ordinary steel pipes and cast iron piping, low overall cost, fast installation, safe and reliable, it is accepted by users. The application fields of fiberglass reinforced pipe involve industries such as petroleum, chemical industry, and sample water.

 

What is FRP (GRP)?

FRP, another name for GRP, is commonly known as glass reinforced plastic. It is a high performance material formed by mixing fiber material and base material in a certain ratio, which is light and hard, non-conductive, high mechanical strength, and corrosion resistant.

 

What are the characteristics of FRP Pipe?

► 1. The coefficient of development of products is comparable

The coefficient of thermal expansion of the FRP composite product resembles that of concrete. When the ambient temperature level changes, FRP and concrete work in harmony, and also no big temperature level anxiety will certainly be created between them.

► 2. High tensile stamina

The tensile stamina of FRP is considerably more than that of steel, and also the tensile toughness of high-strength steel wire has to do with the exact same, usually 2 to 10 times that of steel.

► 3. Lightweight

FRP product is lightweight and also high toughness, so it can reduce the weight of the framework as well as assist in the construction. Its weight is normally 20% of steel. When it is utilized in a huge span structure, it can substantially lower the weight of the structure.

► 4. Manufacturing facility production, assembly, and also building

FRP is a fabricated product, which can be made with different toughness indexes, elastic modulus as well as unique efficiency requirements according to the job requirements, such as fiber material of various fiber materials and laying techniques. Factory manufacturing and also on-site installation contribute to making certain tasks top quality, boosting labor efficiency as well as understanding construction automation.

► 5. Rust resistance

FRP material has great corrosion resistance and exhaustion resistance. It can be used in acid, antacids, chlorine salt as well as a moist environment for a long period of time. Thus, the life span of the structure can be boosted. This is hard to compare to the general structure products.

► 6. Practical forming

The manufacturing procedure of FRP consists of pultrusion, winding, hand gluing, injection molding, and also various other techniques. It is not only possible to produce normal shaped FRP products widespread, but likewise to generate nearly approximate designed sheets for creating non-linear structure forms.

 

We are an FRP pipe supplier, please feel free to contact us if you need them.

FRP pipe performance and characteristics

(1) Light and high, easy to transport and install (<20% of steel, 10% of concrete)

The specific gravity of FRP pipe is 1.7-1.9. Compared with other material pipes of the same pressure and caliber, the weight of FRP pipe is about 30% of that of steel pipe, so it is very convenient for transportation and installation. The length of each FRP pipe can be up to 12m, which is quick and easy to install. In addition, it can also eliminate the welding, rust prevention and anti-corrosion treatment required for steel pipe installation. The weight of the pipe is only 1/4 of that of ductile iron pipe and 1/10 of that of cement pipe, which is convenient for transportation and unloading and easy to install. The installation technology of FRP pipe is mature, convenient and fast, reducing pipe joints, speeding up the installation and improving the quality of the whole pipe

 

(2) Corrosion resistance.

Perhaps the main reason for using fiberglass reinforced plastics (FRP) is because of their inherent corrosion resistance. In many cases, they are the only material that can handle a given service environment; in other cases, their corrosion resistance combined with their economics make them the most economically acceptable solution.The corrosion resistance of FRPs is a function of the resin content and the specific resin used in the laminate. In general, the higher the resin content, the more corrosion resistant the laminate.

 

Chemically inert materials with excellent corrosion resistance and different corrosion resistant pipes are available for transporting media. The conventional thickness of the corrosion-resistant layer is 5 mm. the resin content is greater than 90%, which mainly plays a role in corrosion and leakage prevention. The choice of resin is based on the use of different types of resin. Resistant to acid, alkali, salt, seawater, untreated sewage, corrosive soil or groundwater and many chemical liquids

 

(3) High mechanical strength and designability

Good resistance to internal pressure, external pressure, and impact resistance, allowing the design and manufacture of pipes and fittings to the required pressure. The anti-corrosion layer can improve the use of FRP pipes under various conditions by adding wear-resistant materials, anti-static materials, flame retardant materials, etc.

 

The specific properties and shapes of the wound FRP pipes can be designed according to the specific use conditions.

① The winding angle when winding can be designed so that the FRP pipe has different longitudinal/circular strength distribution.

 

②The wall thickness of the FRP pipe can be designed so that the FRP pipe can withstand different internal and external pressures.

 

③Materials can be designed to achieve different corrosion resistance, flame retardancy, dielectric properties, etc.

 

④The front-end way can be designed to adapt to different installation conditions and improve the speed of project installation.

 

(4) Strong temperature adaptability

Operating temperature range: greater than -70 degrees Celsius, less than 180 degrees Celsius, can be used normally, the pipeline does not crack in the frozen medium.

 

(5) Small fluid resistance

The inner surface of FRP pipe is very smooth, the roughness coefficient is small, and the hydraulic coefficient C can be maintained in the range of 145-150 for a long time. Tested, the water friction loss coefficient f is 0.000915, which can significantly reduce the fluid pressure loss along the way and improve transportation. Capacity in more than 20%. Reduce the flow resistance, increase the flow rate and reduce energy consumption. Use smaller diameter pipe to transport the same flow of fluid, than the same size of steel pipe can improve the flow rate of about 10%; it will not scale and reduce the flow rate after long-term use. Excellent protection for cables in disturbed and heavy corrosive environments.

 

(6) Maintain water quality

The material is non-toxic. FRP pipe is made of resin as the base, glass fiber as the reinforcing material, after a special process to ensure the hygiene and non-toxic, smooth inner wall does not accumulate, does not breed microorganisms, to ensure the quality of the fluid, does not affect the water and other media to produce secondary pollution and transport drinking water, can maintain long-term water quality and hygiene. Water transmission FRP pipe adopts food-grade resin, and the testing indexes all reach international standards.

 

(7) Widely used, good weather resistance

FRP pipes have good weather resistance and are suitable for harsh environments such as deserts and saline lands.

 

(8) Material selection

Resin selection: The matrix resin is made of epoxy vinyl resin and phenolic vinyl resin. The fiber is alkali-free fiber or ECR fiber. Meet various anti-corrosion requirements.

 

(9) Low maintenance cost

The service life of FRP pipe can be more than 50 years, which greatly reduces the maintenance cost. Since FRP pipes have excellent corrosion resistance, abrasion resistance, frost resistance and pollution resistance, there is no need for rust prevention, pollution prevention, insulation, insulation and other measures and maintenance. Buried pipes do not need cathodic protection, which can save more than 70% of maintenance costs.

 

(10) Color

The appearance color of FRP pipes can be made into various colors according to the requirements of customers. The color of appearance can be changed by spraying gel coat resin to adapt to various use environments, with neat and beautiful appearance and vivid colors.

What are the Benefits of Using FRP?

 

 

FPR materials are indispensable for building construction. What are the specific benefits of using it? Read on for more information.

 

1. Weight

 

Going hand-in-hand with a quicker setup time is FRP's weight. FRP is known for being light-weight. As a matter of fact, it has to do with eight times lighter than enhanced concrete-- indicating FRP is likewise less labor-intensive to use and also mount, and also requires less tools. This material likewise calls for less labor during removal processes. See below to compare the total weight of FRP to the overall weight of precast concrete.

 

As you can see from the graph, FRP is considerably lighter than precast concrete, with an FRP panel weighing regarding 5,000 pound and a precast concrete panel weighing almost 41,000 lb. Using a lighter material makes it easier on your workers, saves money on labor prices, as well as places much less stress on the framework. The lower the weight of the material being utilized, the much less wear and tear the facilities will certainly experience all at once.

 

2. Production and Installment Time

 

When developing the design for your general facilities strategy, it is very important to consider the amount of time that will certainly be required not just for the whole job, however likewise for each and every step within the process. Obviously, saved time translates to saved costs, but you certainly do not wish to give up high quality for effectiveness. FRP can provide an ideal balance, helping to conserve useful manufacturing time while still giving the needed quality, strength, and sturdiness. Listed below, compare the manufacturing as well as installment time of FRP to that of precast concrete:

 

As you can see from the graph, FRP's overall manufacturing time is 15 days less than that of precast concrete. This converts to more than 2 weeks' worth of conserved labor costs and also total downtime for facilities advancement. FRP additionally requires much less complete installation time than precast concrete-- nearly five days less, generally.

 

Thanks to this much shorter installment time, engineers using FRP don't need to complete their job exclusively throughout the workweek. Rather, they can opt to do installment work with the weekends, as well, when there is less traffic jam and also end users will experience less inconvenience as well as less disruptions to their commutes.

 

3. Repair

 

FRP frameworks are very trusted and also low-maintenance, but they should not be thought about maintenance-free-- fixings calling for area solution will certainly require to be done on rare events. Executing yearly regular examinations (at minimum) will assist guarantee prospective issues can be caught before they become an issue. If a concern has been recognized and reported (ex. fractures, crazing, staining, too much wear, etc), a field solution technician will be sent to complete the repair work.

 

As mentioned, frameworks made from steel, concrete as well as wood are prone to routine repair work, along with those made with brick and also tile-- that's also where FRP can be found in. Fiberglass can be made use of for patch fixings on bridge outdoor decking as well as linings can be put on culverts, pumps, tank and also pipes to shield less-resistant products from future damages. FRP can also be utilized for wrapping bridge piers and also columns.

 

Repair work made with FRP add up to long-term cost financial savings. Because the product is corrosion-resistant and has a lot longer life span, it's a wonderful alternative to make use of when fixing as well as shielding existing frameworks. Take a look at our brief case research for more information concerning exactly how FRP repairs decrease prices.

 

4. Rust and Maintenance

 

Offering high toughness as well as strength, in addition to dependable resistance to deterioration, FRP is resilient and minimizes the need for ongoing maintenance. The lack of constant maintenance and repairs aids to reduce costly labor as well as product expenses and likewise stops trouble to end users, given that repair service downtime is reduced.

 

And, given that FRP is durable and immune to corrosion, the long-lasting expenses end up being much less as well.

 

Though FRP does have a slightly higher price point per square foot at initial setup, the material permits several advantages in regards to long-term cost savings. Since FRP causes less stress on the framework as well as is much more resilient than various other products, it decreases the demand for costly fixings or reconstruction in the future. For example, bridges as well as platforms constructed from products such as strengthened concrete, steel, or timber often break down 15 to two decades after preliminary installation-- needing incredibly pricey repair work or even an entire brand-new investment to rebuild from the ground up. FRP, nonetheless, is built to last as well as will not experience deterioration in time like several other construction products.

 

We are an FRP pipe manufacturer, please feel free to contact us if you need them.