Fiberglass rebar area of application Fittings made of composite materials are a product of new technologies, the technical characteristics of which make it possible to successfully use it as an alternative to traditional steel fittings in construction of: Foundation; Marine and port facilities; Reinforcement of concrete tanks; Repair and strengthening of bearing capacity of brick and reinforced concrete structures; Road slabs, airfield slabs; For the production of small architectural forms; For the road paving and decking of highway bridges; The implementation of the infrastructure elements in the chemical industries; Repair of damaged brick and reinforced concrete structures; Fittings are used for constructions based on gypsum binders; Construction of swimming pools and industrial pools; The application of fiberglass fittings in civil and industrial construction is caused by many variables: Low specific gravity; High corrosion resistance; Low thermal conductivity of composite materials; High strength, several times the strength of steel fittings; Is a dielectric; Durability; As known, the main drawback of traditional low-carbon steel fittings is a low index of corrosion resistance, which limits their use in the construction of marine facilities and constructions located in the zone of variable water level.
PP reinforced with 15-35% glass fiber compound, for injection. For information regarding price and other characteristics.
Is very detailed but can be sent upon request by buyers The rolls can vary from 400 kilos to 1000 kilos
(1)SBR glue can keep more than 50% after 28 days NaoH test. (2)Our fiberglass yarn is from Shandong; (3)Certificates to guarantee quality: Usually width/length is: 1X50M, and we can produce big roll: 1X1000M or other sizes as your requirement.
Off grade Glass Fibers Chopped
FIELDS OF APPLICATION According to design solutions composite rebars ALB-REBAR shall be used in the following areas: Railway construction: Elements of railway sleepers for high-speed trains and underground railroads. Residential construction and civil engineering Construction foundations; Repair & reinforcement of bearing capacity in brick and reinforcement concrete structures. Highway construction: Reinforcement of roadbed Road, airfield & gray portlandcement slabs. Industrial engineering Reinforcement of concert tanks, storages of treatment facilities, sewage wellâ??s covers; Elements of chemical manufacturing facilities; Reinforcement of concrete floor; Water development facilities. Bridge building & reconstruction: Bridge deck slabs Bridge enclosures Footways Reinforcement of onshore facilities ADVANTAGES OF COMPOSITES Application of composite rebars ALB-REBAR increases constructionâ??s life time and time between repairs by means of: Excellent corrosion resistance in acid, alkali and other aggressive environment High tensile strength; 2 times higher compared to steel 1100-1300 MPa. Low weight; �¼ the weight of an equivalent size steel bar (savings on transportation). Durability No electrical conductivity Anti-magnetic Eco-friendliness and fire safet
*Description* This rovings Fiber Glass is a high-tech reinforcement for long fiber polyamide (PA) processes such as granulate long fiber thermoplastic (GLFT) and direct long fiber thermoplastic (DLFT). This rovings offer a hydrolytic stability in high performance applications. Each package is in a wrap film with each pallet stretch wrapped to protect the fiber glass roving from dirt and moisture. *Processing advantages* Excellent spreadability of the roving filaments in thermoplastic pultrusion allowing complete resin impregnation. Sizing on the fiber surface has been tailored to provide optimal balance of dry strength, fiber resin wetting and minimal sizing rub-off on process contact points. Available in outside and inside payout. Excellent processing in pultruded GLFT processes for molding of high performance long glass PA end products. Excellent wet out and saturation in polyamide (PA) resin. Highest mechanical as-molded properties with best-in-class long-term hydrolytic stability. KOHLI POLYMERS GMBH
18455kgs of Fiberglass E GLASS DIRECT ROVING Ref: E6DR17-2400-386T for 9 289kgs + Ref: E6DR24-4800-386H for 9 166kgs TAKE ALL - 20 pallets (25m3) - 18 000 $ EXW FRANCE (59) Roving Direct is a single strand fiberglass filament yarn wound directly onto a spool without twisting. directly onto a spool without twisting. The term "E Glass" refers to the composition of the glass, which is a type of silica-based glass containing boron oxide boron oxide, aluminium oxide and other oxides. E Glass Direct Roving is mainly used as a reinforcement in polyester or epoxy resin composites to increase their mechanical strength stiffness and durability. It is also used in the manufacture of fibreglass products such as boats, storage tanks, swimming pools body panels and reinforcement parts for construction.
Fiberglass mesh is designed to reinforce concrete structures instead of conventional metal reinforcement. It has the following advantages in relation to metal: 9 times lighter 3 times stronger corrosion resistant significantly accelerates the reinforcement process (knitting on the object is not necessary) no need to put chairs low thermal conductivity Composite bars are connected to the network using a unique patented technology, which uses high performance automatic equipment. The joint is also a stool that forms a protective layer of concrete. For different rod diameters, the height of the stool is different. The only restriction on the use of fiberglass mesh is the inability to operate at temperatures above 150 �° C, therefore, it is not recommended to reinforce structures that must meet special fire requirements: building floors of more than 3 floors, bridge columns, monolithic towers of more than 3 floors. With this exception, almost the entire range of concrete structures remains:
Hello We are a manufacturer of fiberglass rebar in Ukraine (FRP rebar). We can supply different kind and different sizes.
Fiberglass reinforcement (GFRP) is made of linear strands of glass fibers, which are collected in the beam reinforced with periodic profile, impregnated with a thermosetting resin binder, then exposed to heat (polymerization) and cooled. It turns a solid rod of high strength three times the strength of steel by tensile test results, and less weight 9 times with equal diameters. Our GFPR rebar is made of epoxy resin and glass fiber direct roving (E-glass). We produce it in coils of 50m, 100m, 150m and 200m or in rods (from 0,5m and up to 12m).
Fiberglass reinforcement (GFRP) is made of linear strands of glass fibers, which are collected in the beam reinforced with periodic profile, impregnated with a thermosetting resin binder, then exposed to heat (polymerization) and cooled. It turns a solid rod of high strength three times the strength of steel by tensile test results, and less weight 9 times with equal diameters. Our GFPR rebar is made of epoxy resin and glass fiber direct roving (E-glass). We produce it in coils of 50m, 100m, 150m and 200m or in rods (from 0,5m and up to 12m).
The fiberglass mesh (GFRP) is made of fiberglass and epoxy resin. Fiberglass mesh is bars bonded with each other, which forms a very solid to all kinds of mechanical and chemical influences bars. For the production of our products, we use only fiberglass direct roving (E-glass type) and epoxy resin. We produce GFRP mesh d 2-4mm in rolls of 50m2 or 100m2 (1m or 2m high) or in sheets (sizes are discussed individually).
The fiberglass mesh (GFRP) is made of fiberglass and epoxy resin. Fiberglass mesh is bars bonded with each other, which forms a very solid to all kinds of mechanical and chemical influences bars. For the production of our products, we use only fiberglass direct roving (E-glass type) and epoxy resin. We produce GFRP mesh d 2-4mm in rolls of 50m2 or 100m2 (1m or 2m high) or in sheets (sizes are discussed individually).
Fiberglass reinforcement (GFRP) is made of linear strands of glass fibers, which are collected in the beam reinforced with periodic profile, impregnated with a thermosetting resin binder, then exposed to heat (polymerization) and cooled. It turns a solid rod of high strength three times the strength of steel by tensile test results, and less weight 9 times with equal diameters. Our GFPR rebar is made of epoxy resin and glass fiber direct roving (E-glass). We produce it in coils of 50m, 100m, 150m and 200m or in rods (from 0,5m and up to 12m).
Fiberglass reinforcement (GFRP) is made of linear strands of glass fibers, which are collected in the beam reinforced with periodic profile, impregnated with a thermosetting resin binder, then exposed to heat (polymerization) and cooled. It turns a solid rod of high strength three times the strength of steel by tensile test results, and less weight 9 times with equal diameters. Our GFPR rebar is made of epoxy resin and glass fiber direct roving (E-glass). We produce it in coils of 50m, 100m, 150m and 200m or in rods (from 0,5m and up to 12m).
Fiberglass reinforcement (GFRP) is made of linear strands of glass fibers, which are collected in the beam reinforced with periodic profile, impregnated with a thermosetting resin binder, then exposed to heat (polymerization) and cooled. It turns a solid rod of high strength three times the strength of steel by tensile test results, and less weight 9 times with equal diameters. Our GFPR rebar is made of epoxy resin and glass fiber direct roving (E-glass). We produce it in coils of 50m, 100m, 150m and 200m or in rods (from 0,5m and up to 12m).
Fiberglass reinforcement (GFRP) is made of linear strands of glass fibers, which are collected in the beam reinforced with periodic profile, impregnated with a thermosetting resin binder, then exposed to heat (polymerization) and cooled. It turns a solid rod of high strength three times the strength of steel by tensile test results, and less weight 9 times with equal diameters. Our GFPR rebar is made of epoxy resin and glass fiber direct roving (E-glass). We produce it in coils of 50m, 100m, 150m and 200m or in rods (from 0,5m and up to 12m).
We can produce different lengths 6mm, 12mm, 18mm and 24mm Usage: Glass fiber is suitable for use in waterproof plasters, cement-sand screeds, monolithic filling of external and internal walls, and structural thermal insulation. In industrial and housing construction. Recommended for the production of foam concrete paving slabs, and concrete plates. Ideal for underfloor heating systems.
We can produce different lengths 6mm, 12mm, 18mm and 24mm Usage: Glass fiber is suitable for use in waterproof plasters, cement-sand screeds, monolithic filling of external and internal walls, and structural thermal insulation. In industrial and housing construction. Recommended for the production of foam concrete paving slabs, and concrete plates. Ideal for underfloor heating systems.
