Glass-Fiber-Reinforced Plastic Pipes Suited for High-Pressure Applications
Glass-fiber-reinforced plastic in pressurized water pipes allows absorption of high internal pressures.
The benefits of using GFRP pipes include the following:
- Reduced cleaning costs thanks to the smooth surface, which allows for quick cleaning and longer intervals between cleaning;
- savings on installation costs because of the pipes’ light weight; and
- elimination of high maintenance costs as the GFRP pipes resist corrosion.
Dynexa has been producing GFRP pressure pipes in Laudenbach, Germany, since 2002. They are manufactured in standard 8- and 10-inch sizes, as well as in customer-specific special dimensions. By individually adjusting the wall thickness, the pipes can be designed and produced to match internal pressures, said Dynexa.
These pipes are completed by Dynexa’s customers with plate filters or wound modules, which dissolve and separate dirt or salt particles from the water via reverse osmosis.
Glass-Fiber-Reinforced Plastic Pipes Suited for High-Pressure Applications
Dynexa GmbH & Co. KG announced the use of glass-fiber-reinforced plastic (GFRP) in pressurized water pipes that absorb high internal pressures. The GFRP pipes are used in, among other things, water treatment and seawater desalination plants.
Glass-fiber-reinforced plastic in pressurized water pipes allows absorption of high internal pressures. Image courtesy Dynexa.
The benefits of using GFRP pipes include the following:
- Reduced cleaning costs thanks to the smooth surface, which allows for quick cleaning and longer intervals between cleaning;
- savings on installation costs because of the pipes’ light weight; and
- elimination of high maintenance costs as the GFRP pipes resist corrosion.
Dynexa has been producing GFRP pressure pipes in Laudenbach, Germany, since 2002. They are manufactured in standard 8- and 10-inch sizes, as well as in customer-specific special dimensions. By individually adjusting the wall thickness, the pipes can be designed and produced to match internal pressures, said Dynexa.
These pipes are completed by Dynexa’s customers with plate filters or wound modules, which dissolve and separate dirt or salt particles from the water via reverse osmosis.
Fiberglass Reinforced Plastic
Fiberglass Reinforced Plastics (FRP)
FRP vs GRP: Difference Between FRP and GRP
FRP stands for Fiber Reinforced Plastic while GRP stands for Glass Reinforced Plastic. The name makes it clear that there is a change in the reinforcing fiber. But both FRP and GRP are normally used to denote the same plastic products.
Introduction:
In recent years, FRP has been widely used in process, water and chemical industries due to their high resistance to corrosion.
FRP pipes are also increasingly used for the transport of Water, Oil, Fuel, Glycol, Wastewater, Sewer, etc. As a result, the demand for FRP pipes is continuously increasing.
The service life is usually very high, in the range of 50 years. Thus, the total cost of FRP pipes for life becomes cheaper as compared to metal pipes.
What is FRP..
The full form of FRP is a composite material consisting of a polymer matrix reinforced with fibers. So, an FRP pipe is a pipe manufactured of FRP material by contact molding or filament winding method. Various types of resins like thermosetting polyester, epoxy, phenolic resin, etc are used to get specific FRP pipe properties in the final product.
The most widely used reinforcement is the fiberglass. As a corrosion-resistant alternative to metallic piping, the FRP piping system has found worldwide application.
Filament Wound Laminate
1 C-Glass surface veil
2 Chopped Strand Mat
3 Woven Roving
4 Filament Wound Strand
5 Outer surface layer with U.V. inhibitor
a Corrosion Barrier (Abrasion Barrier) (Thickness .100in nominal)
b Structural Wall (Thickness in accordance with pressure rating)
Contact Molded Laminate
Common Fibers include:
- Glass is a very good insulating material and, when blended with the matrix, forms fiberglass or glass reinforced plastic. Compared to carbon fiber, it is both less strong and rigid and less brittle and expensive.
- Carbon based fiber reinforced plastics offer high tensile strength, chemical resistance, stiffness, and temperature tolerance along with low thermal expansion and weight. The carbon atoms form crystals which lie mostly along the fiber’s long axis. This alignment makes the material strong by making the ratio of strength to volume high.
- Aramid is a fiber component that results in robust and heat-resistant synthetic fibers. It finds wide applications in many industries.
FRP Pipes
FRP Flanged Fittings
By selecting FRP as the pipe and fittings materials, include flanges, elbows, tee's, crosses, reducers etc., the need for internal lining, external coating, and cathodic protection can easily be eliminated. FRP piping system is available in a wide range of sizes starting from 1 inch to above 100 inches.
More than just FRP pipe systems
Besides pipelines, storage tanks, towers, grids on walkways, profiles (like steel profiles) etc. are also manufactured from FRP. Below a description of a storage tank
Introduction:
FRP storage tanks are divided into vertical storage tanks and horizontal storage tanks. The winding material selection of storage tanks must be appropriate, quality priority, and price consideration.
In the actual production, the tank wall structure of the FRP-wound storage tank is generally an inner liner layer, a strength layer and an outer surface layer.
Material and resin selection:
Due to the different functions of the layers, the materials are selected differently, and the inner liner is directly in contact with the medium, and the material selection is correct or not, which plays a key role in controlling the leakage of the wound storage tank.
To use vinyl resin if store acidic medium, to use bisphenol A resin if store alkali medium, to use alkali-free glass fiber if need to be water and alkali resistant, to use medium-alkali glass fiber if need to be acid-resistant , and the inner liner is made of surface felt and chopped together to reinforce to increase the amount of glue and enhance the impermeability.
The strength layer mainly meets the strength and stiffness requirements of the storage tank. Material selection should fully consider that the selected resin matrix must have good penetrability with the glass fiber for winding to form a dense structural layer; the outer surface is in direct contact with the external environment, and the material is selected according to the aging resistance requirement.
Application:
FRP tanks can be used to store tanks of various media. They are resistant to pressure, corrosion, ageing, long service life, light weight, high strength, impermeability, heat insulation, insulation, non-toxicity and smooth surface. It is widely used in coatings, pharmaceuticals, building materials, chemicals, pigments, resins, food, scientific research and other industries.
Drawbacks of FRP
- FRP is not recommended for carrying fluid with temperature more than 100 degrees celsius
- Slight degradation from UV rays is found to occur which can be reduced by using pigments, dyes, UV stabilizers, fillers, etc in the resin system
