Thermal Pad

Thermal pad is a type of solid, soft elastomeric thermal conductive material specifically designed to fill gaps and facilitate heat transfer. It effectively reduces the localized temperature at heating points by enabling thermal conduction between the heated area and the cooling area. Thermal pads must exhibit high thermal conductivity and low thermal resistance, as well as excellent surface wettability and resilience. Ginet offers product solutions including angular alumina, spherical alumina, boron nitride, and aluminum nitride.

 

 

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Thermal Conductive Gel

Thermal conductive gel is utilized at the interface between heating elements (such as power transistors, thyristors, and thermoelectric stacks) and cooling components (like heat sinks and housings) in various electronic products and electrical devices. Its role is to facilitate the transfer of heat and moisture while providing functions such as dust resistance, corrosion protection, and shock absorption. The gel must possess high thermal conductivity and fluidity, with particular emphasis on new requirements regarding interface thickness. Ginet can supply a range of alumina and aluminum nitride to meet the demands of thermal conductive gels.

 

 

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High Thermal Conductivity Potting Adhesive

High thermal conductivity potting adhesive representS cutting-edge technology in the field of electronic assembly. They are capable of effectively protecting electronic components under highly challenging environmental conditions, enhancing mechanical strength while providing excellent electrical insulation. High thermal conductivity potting adhesives exhibit superior electrical insulation properties, heat resistance, good sedimentation resistance, and outstanding adhesion qualities. Ginet offers a range of powders, including alumina, crystal quartz, and aluminum nitride, to meet the performance requirements of potting adhesives.

 

 

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Thermal Adhesive

Thermal adhesive not only exhibits excellent bonding capabilities but also demonstrates outstanding thermal conductivity, effectively addressing the heat dissipation challenges faced by electronic devices, which possess high fluidity, superior thermal conductivity, robust adhesion, and long term reliability. Ginet offers products including alumina, boron nitride, and aluminum nitride in various types of resin matrix to meet diverse performance requirements.

 

 

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Membrane Coating

The Membrane Coating technology is one of the critical techniques in battery manufacturing, playing an essential role particularly in the lithium ion battery sector. Its primary function is to prevent direct contact between the two electrodes to avert short circuits, while allowing ions in the electrolyte to pass through, thereby facilitating the storage and release of electrical energy. Membrane coating involves the application of specialized materials onto the substrate membrane to enhance thermal stability, mechanical strength, electrolyte absorption capacity, and ionic conductivity. Ginet can provide a variety of nanometer-scale alumina with different processes to meet the requirements for membrane usage.