For heat dissipation problems, Trancy Thermally Conductive Silicone can help you
In March of this year, Apple launched the iPad Pro 2020 tablet computer equipped with a new A12Z processor. Some people who are interested in Apple complained that Apple still used A12 processor. In fact, the performance of the A12X far exceeds the A13 processor on the iPhone 11 Pro Max, and it is still the strongest SOC on the mobile terminal. After the launch of the iPad Pro 2020, Apple said that the new generation of iPad Pro has enhanced heat dissipation structure to ensure stronger performance output.
Because heat dissipation plays a decisive role in the stable operation of the CPU, Apple pays so much attention to the heat dissipation of the equipment. Only by letting the generated heat spread out quickly can the delicate electronic equipment operate normally at the operating temperature. At this time, a thermally conductive material with high heat dissipation performance is needed.
Thermally conductive silicone is essential
Because many heat sinks cannot fit the CPU perfectly, there is no direct contact between the heat sink and the processor. If thermally conductive silicone products are used to fill the original air gap, the heat sink and the CPU can fit more closely.
Thermally conductive silicone products can be used to fill the gap between the CPU and the heat sink, conduct the heat emitted by the CPU to the heat sink, keep the temperature of the CPU at a stable working level, and prevent the CPU from being damaged due to poor heat dissipation and extend the service life of electronic equipment.
Silicone has excellent thermally conductivity, high temperature resistance, aging resistance, water resistance, insulation and other characteristics. It can protect the circuit while conducting heat, and improve the stability of the circuit. It is currently the most widely used thermally conductivity material in the electronics industry.
Advantages of thermally conductive silicone:
- Excellent thermallyconductivity, with low oil separation (tends to zero), and does not flow even at a high temperature of 250 degrees;
- Excellent electrical insulation, non-toxic, odorless, non-curing and non-corrosive to the substrate;
- Low viscosity, low hardness, excellent elasticity;
- High and low temperature resistance, water resistance and aging resistance.
In order to meet the thermally requirements of 3C electronic products, the editor today introduces two star series silicone products from Trancy.
- MQ silicone resin thermallyconductive gel
Product overview: This product is a two-component addition molding room temperature curing MQ silicone thermally conductive gel, with low viscosity, low oil release rate and excellent viscosity, high stretch, high tear, and excellent aging resistance.
Product application: It is used in the production of various high-K thermally conductive silicone gaskets and thermal gels. It is the best choice for the popular dual-tube thermally conductive gels. It is also suitable for electronic and electrical, LED heat dissipation, insulation sealing and filling fields. .
Representative products: CX-3208AB, CX-3612AB, CX-3638AB
- Elastomer thermallyconductive silicone gel
Product Overview: This product is a component addition molding room temperature vulcanized silicone elastomer silicone gel, high elasticity, low viscosity, low oil release rate, low molecular content less than 500ppm, excellent aging resistance, high and low temperature resistance.
Product application: used in the production of various thermally conductive silicone gaskets and glass fiber gaskets, automotive power supplies, electronic component product insulation, solar cells and other damping products, sealing potting and filling, etc.
Representative products: CX-3421AB, CX-3425AB, CX-3435AB
If you want to know more about Trancy thermally conductive silicone products, please contact us.
Product Manager: Mr. Yu 177 2766 2733
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