Jun 6, 2016 Düsseldorf / Germany
Henkel Develops Thermally Conductive Technomelt Solution
Adding functional capability to its award-winning Technomelt hot melt encapsulants, Henkel Adhesive Technologies today announced another formulation milestone with the development of a thermally conductive Technomelt material. With the ability to transfer heat through the encapsulating layer, thermally conductive Technomelt products offer dual-function performance in a single material solution.
Technomelt materials are well-recognized as a streamlined alternative to multi-step, messy potting processes. Because Technomelt materials can be melted, molded and cooled quickly under low pressure, they deliver a unique encapsulation technique that provides a high throughput solution for protection of delicate circuitry and PCB assemblies, while forming a self-enclosed housing. These inherent Technomelt advantages are now expanded with the addition of thermal conductivity to enable heat dissipation.
“Thermal control is one of the biggest challenges for today’s electronic products,” comments Art Ackerman, Henkel Global Product Manager for Circuit Board Protection Materials. “For certain applications, adding another layer of heat transfer only serves to improve reliability and long-term performance, which is the objective of this new Technomelt platform.”
The first commercialized material in the novel Technomelt portfolio delivers a thermal conductivity of more than 0.5 W/m-K and is well-suited for applications such as LED drivers, power supplies, solar inverters, camera modules and automotive electronic power systems, among others. In testing, the material has shown a 40°C component temperature reduction as compared to standard Technomelt, effectively diffusing heat from its source. Uniquely formulated for molding techniques, the new Technomelt materials draw on Henkel’s broad knowledge of hot melt resin and filler technology to deliver a melt viscosity that is compatible with standard low pressure molding processes and equipment. Filler dispersion is maintained for long periods of time at melt temperatures above 180°C.
“Henkel’s expertise in thermal management extends outside the boundaries of traditional thermal interface solutions,” concludes Ackerman, noting that current and next-generation product designs will need more material capability than ever before. “This latest Technomelt formulation highlights the out-of-the-box ingenuity consistently delivered by Henkel chemistry specialists and is a benchmark for future multi-function materials integration.”