Showing all 15 results
GF300 is a two part, liquid silicone based thermally conductive gap filler which cures at room temperature or can be accelerated using heat. It has exceptional thermal performance (3.0 W/m.K) and after curing GF300 forms a low modulus elastomer preventing the 'pump-out phenomenon'.
Electrolube Heat Transfer Compound is recommended where the efficient and reliable thermal coupling of electrical and electronic components is required or between any surface where thermalconductivity or heat dissipation is important. They should be applied to the base and mounting studs of diodes, transistors, thyristors, heat sinks, silicone rectifiers and
Electrolube's Non-Silicone Heat Transfer Compound Aerosol is an innovative new way of applying our standard HTC. The aerosol version offers greater ease of use, allowing a thin, even film of HTC to be applied where required. It is especially useful for applications over larger areas. As with all Electrolube aerosols
HTCPX provides the ultimate in thermal conductivity together with the advantage of using non-silicone base oil. The exceptional properties obtained from HTCPX are due to the novel use of various metal oxide (ceramic) powders. These materials are electrically insulative to ensure that leakage currents can not be formed if the
Electrolube HTCX is an enhanced version of HTC featuring improved thermal conductivity, lower oil bleed, and lower evaporation weight loss. HTCX is recommended where the efficient and reliable thermal coupling of electrical and electronic components is required or between any surface where thermal conductivity or heat dissipation is important. It
HTCX_ZF is a Zinc Oxide free version of Electrolube's highly successful Heat Transfer Compound Xtra (HTCX). HTCX_ZF is both silicone free and zinc oxide free which makes it an ideal choice for applications where marine pollutants or silicones are restricted such as offshore utilities. It offers efficient thermal conductivity for
Silicone Heat Transfer Compound is a metal oxide filled silicone oil providing an extremely efficient and exceptionally thermally conductive compound which will operate over a wide temperature range. Electrolube Heat Transfer Compound is recommended where the efficient and reliable thermal coupling of electrical and electronic components is required or between
HTSX is a silicone thermal interface material (TIM) which has been developed to perform in more extreme conditions than its sister product HTS. It exhibits extended characteristics to HTS, with higher thermal conductivity, extended operating temperatures and excellent stability with a much-reduced oil bleed. It is a non-curing thermal paste, making
SCTP is a thermal interface material for use where the efficient thermal coupling of electrical components is required. It is specially designed to resist pumping out from the bond line and can be applied using industrial dispensing equipment or via screen/stencil printing techniques.
Thermal Bonding Compound is a two part epoxy bonding system which utilises metal oxides to provide excellent thermal conductivity whilst being electrically insulating. It is especially useful in the manufacture of heatsink assemblies where 'piggy back' arrangements are applied and where the manufacture design of heat sinks does not allow
Categories: DISCOUNTED PRODUCTS, Material/consumables, PCB finishes, Soldering consumables, Thermal management
Electrolube TCER is a single component, 100% solids, low odour RTV which cures upon exposure to atmospheric moisture. The product offers a high degree of thermal conductivity and is suitable for use over a very wide temperature range, making it ideal for a wide variety of uses, particularly in automotive
Electrolube TCOR is a single component, 100% solids, low odour RTV which cures upon exposure to atmospheric moisture. The product offers a high degree of thermal conductivity and is suitable for use over a very wide temperature range, making it ideal for a wide variety of uses, particularly in automotive
TPC400 is a single part dispensable material with high heat transfer performance. The unique formulation means TCP400 can be used on vertical surfaces, it is very soft and exerts low stress on components; the low modulus elastomer shows excellent 'pump-out' resistance and minimal oil bleed. TCP400 can be used as
TPM350 is one of Electrolube's latest high-performance product innovations in our thermal interface material range. It is designed for easy application via screen printing, containing a small amount of solvent which evaporates after application to leave a cured material in place. This eliminates the mess associated with thermal pastes or greases.
TPM550 is one of Electrolube's latest high-performance thermal interface material innovations. It is a phase change material meaning that when it reaches its 'activation' temperature of 45°C it changes state to become a lower viscosity material, minimizing the contact thermal resistance and improving the thermal conductivity. Once it cools, it