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Advantages of Thermal Conductors

Ease of use

One of the main advantages of thermal pads is their ease of use. Unlike thermal paste, which requires careful application and can be messy, thermal pads come pre-cut and can be easily placed between the heat source and heat sink.

01

Non-Corrosive

Thermal pads are non-corrosive, which means they do not contain any compounds that will corrode the surface of the components they come in contact with.

02

Reusability

Unlike thermal paste, which often needs to be reapplied every time the heat sink is removed, thermal pads can be reused multiple times.

03

Electrical Insulation

Thermal pads provide electrical insulation between the heat sink and components, preventing any conduction that could cause a short circuit.

04

Consistent Thickness

The thermal pad has a consistent thickness to ensure uniform contact between the heat source and the heat sink.

05

 

Types of Thermal Conductors
 
 
 

Thermal Pads

These general-purpose pads are made of various thermally conductive materials. They typically offer a thermal conductivity range of 1.0 to 15.0 W/m·K, making them versatile for a wide range of applications.

 
 

Carbon Fiber Thermal Pads

Incorporating aligned carbon fibers, these pads provide superior thermal conductivity, typically ranging from 15.0 to 45.0 W/m·K.

 
 

Silicone-Free Thermal Pads

Designed for environments sensitive to silicone contamination, they are commonly used in medical devices, sensors, and optical equipment where silicone use is restricted.

 
 

Phase Change Thermal Pads

These pads transition from solid to liquid at specific temperatures, providing excellent wetting and minimal thermal resistance.

 

 

Applications of Thermal Conductors

 

Computers
Thermal pads are used to transfer heat from the CPU and GPU to the heatsink, preventing them from overheating and improving performance.


Smartphones
Thermal pads are used to transfer heat from the battery and processor to the phone's body, preventing overheating and ensuring optimal performance.


Gaming Consoles
Thermal pads are used to transfer heat from the CPU and GPU to the heatsink, ensuring the device can handle intense gaming sessions without overheating.


Automotive Electronics
Thermal pads are used to transfer heat from various electronic components to the car's body, preventing overheating, and ensuring reliable performance.

Thermally Conductive Gel

 

Certificate

page-800-1131
page-800-1131
page-800-1131
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Frequently Asked Questions

Q: What are thermal conductive adhesives?

A: Thermal conductive adhesives are bonding agents that efficiently transfer heat between surfaces, often used in electronics to attach heat sinks or other thermal management components.

Q: How is thermal conductivity measured?

A: Thermal conductivity is measured in watts per meter-kelvin (W/m·K) and represents the amount of heat a material can transfer through a unit thickness over a unit time per degree of temperature difference.

Q: Do you have an in-house R&D team?

A: Yes, we have a dedicated research and development team capable of customizing products according to specific customer requirements.

Q: What is the best thermal conductor?

A: Silver has the highest thermal conductivity among metals, with a value of approximately 429 W/m·K, but diamond, a non-metal, surpasses it with thermal conductivity values exceeding 2,000 W/m·K.

Q: What are thermal conductors used for?

A: Thermal conductors are used in applications requiring efficient heat transfer, such as heat sinks, cooking utensils, HVAC systems, thermal management in electronics, and industrial heat exchangers.

Q: How does temperature affect thermal conductivity?

A: For most metals, thermal conductivity decreases as temperature increases due to increased lattice vibrations. In non-metals like ceramics, conductivity often increases with temperature.

Q: What is the thermal conductivity of copper?

A: Copper has a high thermal conductivity of approximately 401 W/m·K, making it one of the most commonly used thermal conductors in engineering and electronics.

Q: What is the estimated delivery time?

A: For items in stock, delivery typically takes 3 to 5 business days. For customized orders, the production period ranges from 10 to 20 business days, depending on complexity.

Q: Are thermal conductors used in electronics?

A: Thermal conductors are extensively used in electronics for heat dissipation, such as in heat sinks, thermal interface materials, and circuit boards to prevent overheating and ensure reliability.

Q: How do composites enhance thermal conductivity?

A: Composite materials can enhance thermal conductivity by combining highly conductive fillers, such as graphite or metal particles, with lightweight or flexible base materials like polymers.

Q: Are ceramics good thermal conductors?

A: Certain ceramics, like aluminum nitride and boron nitride, are excellent thermal conductors, while others, like porcelain, are better suited as thermal insulators.

Why Choose Us

Our company was established in March 2010. Having over 13 years of professional experience in electronic material manufacturing.

Wide Product Range

We engaged in the research and development, as well as post-processing, of branded industrial tapes, EMI shielding materials, insulation materials, foam materials, thermal management materials, etc. Applied to consumer electronics such as computers, mobile phones, Netcom, and security products, as well as new energy electronics industries such as new energy photovoltaics, energy storage, and power batteries.

Abundant Raw Materials

We currently have independent research, development and production of raw materials: silicone foam, PU polyhydrogen ester foam, thermal conductive film, thermal conductive gel and other raw materials, with the production capacity of integrating raw material research and development to die cutting processing.

 

 

Quality Assurance

Our company has a professional R&D team to achieve the production and sales of raw materials. At present, more than 20 patents have been applied for cumulatively. And through IS09001 IS014001, IAT16949, Multiple heavyweight certifications such as management system certification.

 

Products Sell Well

Regional markets: China, Vietnam, Sweden, Thailand, Malaysia; Achieved performance: established cooperation with the top three OEM (FOX/compact, PEgatoron) factories in consumer electronics; Become a supplier to automobile manufacturers (Geely, Changan); Establish cooperation between TOP10 in new energy power and TOP10 in energy storage.

We're well-known as one of the leading thermal conductors manufacturers and suppliers in China. If you're going to buy high quality thermal conductors made in China, welcome to get more information from our factory. Also, customized service is available.

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