China best Electrical Material Fr4 G10 Epoxy Fiberglass Plate vacuum pump oil

Product Description

Electrical material FR4 G10 epoxy fiberglass plate

1. Specification

1)  Thickness: 0.1-120mm
2)  Width: 1571X2571mm, 1220*2440mm, 1571*1220mm

2. Property Electrical material FR4 G10 epoxy fiberglass plate

1) Class F(155 degree) laminated sheet 

2)  High mechanical performance, stable electrical properties, high tempreture

3)  Water and heat resistance, stable dielectric property after soaking 


Fit for machine, electric apparatus and insulating parts for electronics like motor and transformer.

4. Technical sheet

No Performance Unit Values Test result
1 Vertical banding strength Mpa ≥340 360
2 Bending elastic modulus of appearance Mpa ≥24000 25000
3 Vertical compression strength Mpa ≥350 380
4 Parallel impact strength KJ/m2 ≥33 34
5 Insulation resistance after flooding(D-24/23) Ω 5.0×108 5.0×108
6 Vertical electric strength (In 90±2ºC Oil, sheet 1mm) MV/m 14.2 14.6
7 Peel strength Mpa ≥300 320
8 Parallel breakdown voltage (90±2ºC OIL) kv ≥35 36
9 relative dielectric constant(48-62Hz) / ≤5.5 5.2
10 dielectric loss factor / ≤0.04 0.03
11 T1 long-term CHINAMFG stability / ≥130 155
12 Water absorption( D-24/23, sheet1.6mm) / ≤19mg 16mg
13 Density Electrical material FR4 G10 epoxy fiberglass plate  g/cm³ 2.0 2.0

5. Packing  2571 hot selling insulation materials Yellow 3240 epoxy resin plate
 Electrical material FR4 G10 epoxy fiberglass plate is put in 1 Plate approx 1ton, and then packing with film.
insulation material yellow green 3240 fr4  fabric fiber glass resin epoxy laminate sheet 

6. Company information

ERIC(ZheJiang )TECHNOLOGY GROUP CO.,LTD is a professional manufacturer of

Various electrical insulation materials.

 insulation material yellow green 3240 fr4  fabric fiber glass resin epoxy laminate sheet 

Our main products are as follows:

1.Laminated sheet: epoxy fiberglass cloth sheet & tube, phenolic bakelite sheet

  & rod.


2.Fiberglass sleeving: PVC fiberglass sleeve, acrylic fiberglass sleeve, silicone rubber fiberglass sleeve and silicone fiberglass sleeve

3.Electrical composite insulating paper: DMD CHINAMFG NHN etc.

4. Mylar PET film, polyimide film
5.Varnished products


Eric always holds the principle of “Talent-oriented”, puts science and technology in the first place, employs qualified professionals to develop new products and meets market demands.



/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1

Application: Insulators, Electrical Winding Insulation, Winding Wire Coating Insulation, Electrical Base, Shell, Motor, Insulating Varnish, Switch Baseplate, Transformer
Type: Insulation Sheet
Chemistry: Hybrid Insulation
US$ 1/A4
1 A4(Min.Order)


Order Sample



.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}

Shipping Cost:

Estimated freight per unit.

about shipping cost and estimated delivery time.
Payment Method:


Initial Payment

Full Payment
Currency: US$
Return&refunds: You can apply for a refund up to 30 days after receipt of the products.

motor base

What are the advancements or innovations in motor base plate technology?

In recent years, there have been several advancements and innovations in motor base plate technology aimed at improving performance, efficiency, and ease of use. These advancements have been driven by evolving industry requirements, technological advancements, and the need for more reliable and efficient motor systems. Here are some notable advancements in motor base plate technology:

1. Integrated Cooling Solutions:

One significant advancement in motor base plate technology is the integration of cooling solutions. Motor base plates are now designed with built-in cooling channels or heat pipes to enhance heat dissipation from the motor. These integrated cooling solutions help maintain optimal operating temperatures, especially in high-power applications, and improve overall motor efficiency by reducing thermal losses.

2. Lightweight and High-Strength Materials:

Motor base plates are being manufactured using lightweight and high-strength materials such as aluminum alloys and composite materials. These materials offer improved strength-to-weight ratios, reducing the weight of the motor assembly while maintaining structural integrity. The use of lightweight materials in motor base plates contributes to energy savings, particularly in applications where weight reduction is critical.

3. Enhanced Vibration Damping:

Vibration damping capabilities in motor base plates have been improved to minimize the transmission of vibrations from the motor to the mounting surface. Advanced damping materials and design techniques are employed to reduce vibrations, ensuring smoother motor operation and enhanced overall system performance.

4. Modular and Customizable Designs:

Motor base plates are now available in modular and customizable designs, allowing for easier integration into different motor systems. These modular base plates can be easily adapted to various motor sizes and configurations, providing flexibility and convenience in motor assembly and maintenance.

5. Integrated Sensor Mounting Options:

To simplify the installation and integration of motor sensors, some motor base plates feature integrated sensor mounting options. These base plates have dedicated provisions or slots for mounting position sensors, temperature sensors, or other feedback devices, enabling easier sensor installation and better overall system performance.

6. Improved Corrosion Resistance:

Motor base plates are now manufactured with improved corrosion-resistant coatings or materials to withstand harsh environments. The enhanced corrosion resistance ensures the longevity and reliability of the motor assembly, particularly in applications where exposure to moisture, chemicals, or other corrosive elements is a concern.

These advancements in motor base plate technology contribute to the overall improvement of motor systems by enhancing thermal management, reducing weight, minimizing vibrations, increasing customization options, simplifying sensor integration, and improving durability in challenging operating conditions.

It’s important to note that the specific advancements and innovations in motor base plate technology may vary among manufacturers and depend on specific application requirements. Motor base plate technology continues to evolve, driven by ongoing research and development efforts, as well as feedback from industry users and market demands.

In summary, advancements in motor base plate technology focus on enhancing cooling capabilities, utilizing lightweight materials, improving vibration damping, offering modular and customizable designs, integrating sensor mounting options, and improving corrosion resistance. These advancements contribute to the efficient and reliable operation of motor systems across various industries and applications.

motor base

How do motor base plates contribute to ease of maintenance for electric motors?

Motor base plates play a significant role in facilitating ease of maintenance for electric motors. They provide several features and benefits that simplify maintenance tasks and enhance accessibility to the motor components. Here are some ways in which motor base plates contribute to the ease of maintenance:

1. Accessibility: Motor base plates are designed to allow easy access to the motor and its components. They provide a stable and secure platform for the motor, making it easier for maintenance personnel to reach and work on various parts of the motor, such as the bearings, shaft, or wiring connections. The base plate’s design often incorporates strategic openings or cutouts that provide convenient access points for maintenance tasks.

2. Quick Removal and Installation: Motor base plates are typically designed for easy removal and installation of the motor. They often feature mounting arrangements that allow for swift disconnection and reconnection of the motor from the base plate. This simplifies maintenance activities such as motor replacement, inspection, or repair, reducing downtime and enhancing efficiency during maintenance operations.

3. Alignment Assistance: Motor base plates often include alignment features that aid in aligning the motor during installation or maintenance. These features can include reference marks, guides, or built-in leveling mechanisms that help ensure proper alignment between the motor and driven equipment. Proper alignment is critical for optimal motor performance and longevity, and the base plate’s alignment assistance simplifies this aspect of maintenance.

4. Integrated Wiring Channels: Some motor base plates are designed with integrated wiring channels or conduits that enable organized routing and protection of motor wiring. These channels help keep the wiring neatly organized and shielded from potential damage, making it easier to inspect and maintain the wiring connections. They also contribute to a cleaner and safer work environment during maintenance activities.

5. Vibration and Noise Control: Motor base plates may incorporate vibration isolation features or materials to dampen vibrations and reduce noise levels. This not only enhances the motor’s performance but also contributes to a more comfortable and safer maintenance environment. Reduced vibrations and noise make it easier for maintenance personnel to detect and diagnose any abnormal motor behavior or issues during routine inspections.

6. Mounting Provisions for Accessories: Motor base plates often include mounting provisions or brackets for attaching additional accessories or components, such as sensors, controls, or monitoring devices. These provisions simplify the integration of such accessories into the motor system, facilitating maintenance tasks such as sensor replacement or system upgrades.

7. Durability and Corrosion Resistance: Motor base plates are typically constructed from durable materials, such as steel or aluminum, that offer resistance to corrosion and environmental factors. This ensures that the base plate remains robust and reliable over time, reducing the need for frequent maintenance or replacement. The use of corrosion-resistant materials also simplifies cleaning and maintenance of the base plate itself.

By incorporating these features and benefits, motor base plates contribute to the ease of maintenance for electric motors. They enable easier access, quick removal and installation, alignment assistance, organized wiring routing, vibration control, mounting provisions, and durable construction. These aspects collectively streamline maintenance tasks, improve efficiency, and contribute to the overall reliability and longevity of the electric motor system.

motor base

How does a motor base plate contribute to the stability and alignment of electric motors?

A motor base plate plays a crucial role in ensuring the stability and alignment of electric motors. Here’s a detailed explanation:

1. Stability: The motor base plate provides a stable foundation for the motor. It is typically made of a rigid material such as steel or cast iron, which helps minimize vibrations and movement. By securely mounting the motor to the base plate, it prevents unintended motor displacement during operation, ensuring that the motor remains in its intended position. This stability is essential to maintain consistent motor performance, prevent damage to the motor or driven equipment, and ensure worker safety.

2. Alignment: Proper alignment is critical for the efficient and reliable operation of electric motors. The motor base plate incorporates features that facilitate precise alignment between the motor and the driven equipment. These features may include adjustable mounting slots, bolt-hole patterns, or alignment guides. By using these alignment aids, technicians can fine-tune the position of the motor on the base plate, ensuring that the motor shaft aligns accurately with the driven equipment’s shaft. This alignment minimizes mechanical stress, reduces energy losses, and enhances the motor’s overall performance and longevity.

3. Vibration Dampening: Electric motors can generate vibrations during operation, which, if left unchecked, can adversely affect the motor’s performance and surrounding equipment. The motor base plate acts as a vibration dampening component by absorbing and dissipating a significant portion of the motor’s vibrations. The rigid construction of the base plate helps minimize the transmission of vibrations to the surrounding structure, reducing noise levels, preventing structural damage, and improving overall system reliability.

4. Structural Integrity: The motor base plate adds structural integrity to the motor installation. It provides additional support and rigidity, ensuring that the motor remains securely attached to the base plate and the mounting surface. This structural integrity is particularly important in industrial environments where machinery may be subjected to dynamic forces, such as vibrations or impacts. The base plate’s stability and strength help maintain the motor’s position and prevent any shifting or movement that could lead to misalignment or mechanical failure.

By contributing to stability and alignment, motor base plates play a critical role in optimizing motor performance, reducing wear and tear, preventing premature failures, and maximizing energy efficiency. They provide a solid foundation for electric motors, ensuring they operate reliably and efficiently in various industrial applications.

China best Electrical Material Fr4 G10 Epoxy Fiberglass Plate   vacuum pump oil	China best Electrical Material Fr4 G10 Epoxy Fiberglass Plate   vacuum pump oil
editor by CX 2024-05-10