| Material: | Organic Silicone |
|---|---|
| Application: | Medical, Industrial, New Energy Vehicle |
| Certification: | ISO, REACH, RoHS, IATF16949 |
| Advantage 1: | Electrical Insulation |
| Advantage 2: | Applied for Automatic Production Line |
| Advantage 3: | Low Compression Applications |
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Audited Supplier Experience the exceptional performance of our Gap filler double component GC-TA350. This advanced thermal conductive gel is designed to provide efficient heat dissipation and is perfect for industrial control equipment. With its high thermal conductivity, low thermal resistance, and good thixotropy, it ensures optimal temperature management.
Our GC-TA350 gel offers excellent operability, allowing for easy manual application or integration into automated production lines. Its short curing time and easy storage make it a convenient choice for various industries, including new energy, energy storage, network communications, security, and medical.
By replacing the CGW-3 of Sekisui brand in Japan, our thermal conductive gel proves its reliability and effectiveness. It is a versatile solution that enhances thermal conductivity and provides a precise gel for industrial control equipment, electric vehicle batteries, and drone heat dissipation.
Choose our thermal conductive gel for its automation-friendly properties, making it suitable for both manual and automated production processes. Its steel mesh screen printed gel ensures precision and accuracy, while its silicone composition guarantees optimal thermal conductivity.
Upgrade your thermal management solution with our advanced thermal conductive material. Say goodbye to overheating issues and enjoy efficient heat dissipation in high-temperature environments. Our gel is the perfect choice for new energy applications, offering a reliable and automated heat dissipation paste for electric vehicle batteries.
Trust Dongguan Gold-Cool Nano Technology Co., Ltd for all your thermal conductivity enhancement needs. Our versatile thermal gel for automation is the ideal solution for industrial control equipment, providing a precise and efficient heat dissipation compound.
Experience the ultimate solution for thermal management with our advanced thermal conductive material. Designed for automated heat dissipation, our versatile gel offers high thermal conductivity, superior temperature resistance, and excellent electrical insulation. It is the perfect choice for a wide range of applications, including LED chips, communication equipment, phone CPUs, memory modules, IGBJ and other power modules, power semiconductor field, new energy/energy storage, and other electronic components.
Developed by Dongguan Gold-Cool Nano Technology Co., Ltd, a leading innovator in thermal management solutions, our product is specifically engineered to meet the demands of automated production lines. With its efficient heat dissipation properties, this thermal compound ensures optimal performance and reliability in various industrial control equipment, electric vehicle batteries, and even drone heat dissipation.
Our steel mesh screen printed thermal gel provides precision and accuracy, making it an ideal choice for automation-friendly applications. Its silicone-based formula enhances thermal conductivity, allowing for effective heat dissipation in high-temperature environments.
Choose our versatile thermal gel for automation and experience the benefits of an efficient heat dissipation solution. Trust in our expertise and rely on our advanced thermal conductive compound to enhance the performance and longevity of your electronic components.
| General Product Attribute Table | |||||
| Two component thermal gel | |||||
| Project | Unit | TA200 | TA301 | TA350 | Testing Standard |
| Color | - | Whith+Light Blue | Yellow/Grey | Whith+Pink | Visual |
| Density | g/cm3 | 2.5±0.2 | 3.3±0.2 | 3.1±0.2 | ASTM D792 |
| Thermal Conductive | W/m.k | 2±0.2 | 3±0.2 | 3.5±0.3 | ASTM D5470 |
| Extrusion rate | g/min | 18 | 60 | 31 | @90psi 50cc Rubber hose |
| Hardess | Shore oo | 55±10 | 60±10 | ASTM D2240 | |
| Curing time | Min@25ºC | 30~60 | Visual | ||
| Temperature Range | ºC | -40~180 | - | ||
| Thermogravimetric Loss | % | 1 | @150ºC/24H | ||
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