Specifications

Glassfiber Reinforced Rod with G11 grade
1.Diameter:6-200mm
2.Thermal Grade:B
3.Can OEM,ODM
4.Application:Electronics

Product Name: Glassfiber Reinforced Rod with G11 grade

Materials and application:

Epoxy glass cloth moulded rod consisting of fiberglass cloth has been impregnated with epoxy resin, to be dried and cured in mould under pressure with heat and machined to form a single rod.

Features:

Appearance: surface should be smooth, without bubble, greasy dirt and impurity. Heterogeneity of color, scratch, slight unevenness not hindering its use are permitted. Cracks, not hindering use, on top surface or section for the rod with diameters more than 25mm are permitted.

 

The product has higher mechanical and dielectric properties as well as good machinability. They are mainly used in electric device as insulation construction parts, and used in moist circumstance and transformer oil.

Products grade:

3840

Similar to IEC grade EPGC41 and DIN grade HGW2375. Mechanical and electrical applications, good moisture resistance. If the   usage is not hindered, it is allowed to have some cracks on top surface or section of rod with diameter more than 25mm.

3841 & 3841F

Similar to NEMA grade G-10 and FR-4 respectively. If the usage is not hindered, it is allowed to have some cracks on top surface or section of rod with diameter more than 25mm.

Our factory can provide:

-Nominal diameter: 6~100mm

-Nominal length: 1000mm.

-Color: nature,green

-Surfaces: Shining

Product Application:

3840 l Temperature grade: B glass (130°C) l Color: nature (green) l Diameter: 6-100mm l Length: 1000mm   3841 & 3841F l Temperature grade: B glass (130°C) l Color: nature (green) l Diameter: 6-100mm l Length: 1000mm

Technic Index Data Sheet

Properties		Unit	Grade
			Epoxy Glass Cloth Molded Rod
			3840	3841	3841F
Flexural strength	≥	MPa	343	241	241
Tensile strength	≥	MPa	196	—	—
Compressive strength (Axial)	≥	MPa	—	241	241
Breakdown voltage parallel to laminations (in transformer oil)	≥	kV	15 (90±2°C)	15 (90±2°C)	15 (90±2°C)
Insulation resistance parallel to lamination A: Under normal conditions D-24/23: Immersion in water	≥	W	1.0×1010 1.0×107	—                   —	—                   —
Density		g/cm3	(1.70-1.90)
Water absorption rate (D-24/23,25MM)	≤	%	—	0.5	0.5
Flammability		Class	—	—	FV0
Color		—	Natural	Green	Green
Reference standard		—	Q/TXXFR004-2009

More Technology Information

What is epoxy

Epoxies are thermosetting polymer resins where the resin molecule contains one or more epoxide 

groups. The chemistry can be adjusted to perfect the molecular weight or viscosity as required by 

the end use. Their are two primary types of epoxies, glycidyl epoxy and non-glycidyl. Glycidyl epoxy

resins can be further defined as either glycidyl-amine, glycidyl-ester, 

or glycidylether. Non-gylcidyl epoxy resins are either aliphatic or cyloaliphatic resins.

What is epoxy resins commonly used for

In the realm of fiber reinforced polymers (plastics), epoxy is used as the resin matrix to efficiently hold 

the fiber is place. It is compatible with all common reinforcing fibers including fiberglass, carbon fiber, 

aramid, and basalt.

Common products and manufacturing methods for fiber reinforced epoxy include:

Ø Pressure vessels

Ø Pipes

Ø Rocket housings

Ø Recreational equipment

Ø Insulator rods

Ø Arrow shafts

Ø Compression Molding

Ø Aircraft parts

Ø Skis and snowboards

Ø Skateboards

Ø Circuit boards

Ø Prepreg and autoclave

Ø Aerospace components

Ø Bicycle frames

Ø Hockey sticks

Ø Vacuum Infusion

Ø Boats

Ø Wind turbine blades

Advantages of Epoxy

When compared to other traditional thermoset or thermoplastic resins, epoxy resins have distinct

 advantages, including:

Ø Low shrink during cure

Ø Excellent moisture resistance

Ø Excellent chemical resistance

Ø Good electrical properties

Ø Increased mechanical and fatigue strength

Ø Impact resistant

Ø No VOCs

Ø Long shelf life

What is Pultrusion

Pultrusion is a method of manufacturing continuous fiber reinforced composites profiles. The 

manufacturing process is that where molten plastic or metal is pushed through a die. However, 

with pultrusion, the material is "pulled" through a die.

The Pultrusion Process

Raw fiber (glass, carbon, aramid, etc) is pulled off of doffs or rolls from a creel racking system.

The fiber is pulled through a bath of thermosetting resin. Most often the resin is polyester resin,but

also vinyl ester, epoxy, and more recently, urethane.

a. Using guiding systems, the impregnated fiber is led through a heated die. The entrance of the die 

is often cooled to avoid curing the resin while excess resin is squeezed off.

b. As the fiber and resin is pulled through the heated die, the resin cures and exits as a fully formed 

composite. The shape of the pultruded composite part will match the shape of the die.

c. All of this is accomplished by a set of "pullers" or "grippers" which are pulling this material at a

 consistent rate.

d. At the end of the composite machine is a cut-off saw, which cuts the pultrued profiles at a 

desired leng

What is Fiberglass?

Fiberglass reinforced plastics (FRP), are a composite material consisting of fiberglass

reinforcements in a plastic (polymer) matrix. The variations of both reinforcements and polymers

allow an incredible range of physical and mechanical properties which can be developed specifically 

for the performance required.

Advantages of Fiberglass Reinforced Plastics (FRP)

Fiberglass reinforced plastic composites are strong, lightweight, corrosion resistant, thermally and 

electrically nonconductive, RF transparent, and virtually maintenance free. There are unique

 properties of FRP, that make them suitable and desirable for a wide range of product applications.

FRP Advantages include:

a. Strength & Durability

b. Versatility and Freedom Of Design

c. Affordability and Cost Effectiveness

d. Unique Physical Properties

Fiberglass is an attractive, lightweight, and durable material with one of the highest strength to weight 

ratios available for component fabrication. It is also highly resistant to environmental extremes. 

Fiberglass reinforced plastics (FRP) do not rust, are highly resistant to corrosives, and are able to 

withstand temperature extremes as low as -80° F or as high as 200°F.