Silicone-based soft elastomers
Gapfiller - Spacer - TC – Softsilikon - PADs
We offer our customer a wide range of very excellent and innovative high thermal conductivity products from our partner suppliers Denka Chemicals and Shin-Etsu Silicones as well as further partner suppliers.
The careful selection of proprietary ceramic fillers, as well as the use of own innovative, state-of-the-art production sites, including patented mixing technologies, enables our partner suppliers to respond quickly and flexibly to the constantly changing requirements and needs - especially in the field of power electronics.
Thereby the individual properties as well as the constantly increasing demands on the thermally conductive product with regard to higher flexibility, quality and long-term stability can through be effortless achieved, while the thermal conductivity in the products always corresponds to the current trend and purpose; Because the application dictates the most suitable thermally conductive material.
The gap filler spacer of the FSL product range are thermally highly conductive and electrically highly insulating, soft and ultra-soft silicone-based elastomers which very excellent thermal junction can be achieved.
Due to the extremely high softness and form adaptability of the silicone gap filler, an optimum thermal transition is achieved even at very low pressure to the surfaces to be contacted. This considerably minimized the overall thermal transfer resistance. The special formulation and filling of the silicone elastomer with proprietary high-quality ceramic powder, which enables a very high thermal conductivity of up to 8 W/mK, is particularly noteworthy.
The soft and ultra-soft thermally conductive Pads consist of silicone rubber in combination with highly thermally conductive fillers. They are available as single or as multi composite layer. Alle types also dispose extraordinarily high electrical insulation strength.
The extremely high softness and conformability of the soft silicone enables it to be adapted to irregular or complex surfaces. Air gaps between heat-generating components and heat sinks can thus be successfully filled and thermally junction. As a result, an optimum thermal transition is achieved even at very low pressure on the surfaces to be contacted. This considerably minimizes the overall thermal transfer resistance and creates an optimum thermal path.
The special formulation of these products with proprietary high-quality ceramic powder, which enables a very high thermal conductivity of up to more than 5 W/m*K, should be emphasized.
The natural adhesion of these product line up here also enables very good pre-application, and thus use in automated placement systems.
All Gap filler spacers offer very good thermal performance and achieve an equally excellent thermal path by reducing the overall transition resistance. Due to the first-class combination of thermal and mechanical properties-as well as quality and price-the different material types are suitable for a wide range of applications; wherever large gaps must be efficiently bridged from the power component to the heat sink. The housing itself can thus function as a heat sink, which saves a total of space in the application.
The different spacer variants have a compressibility of up to 30%. Due to this adaptability, an optimal thermal contact is achieved even at very low pressures. As a result, the thermal total transition resistance is reduced to whitish and to a large extent considerably.
All ICT SUEDWERK gap-filler-spacer material types have very high reliability. Due to the natural adhesion, the material can also be affixed very well in advance. Our gap filler spacer types are available both, on one side and on both sides (self-)adhesive.
The housing itself can thus function as a heat sink, saving space in the application as a whole. The variants have a compressibility of up to more than 30%. This Gapfiller form adaptability ensures optimum thermal contact even at very low pressure levels. The total thermal transfer resistance is thus reduced to a high degree and is detectable.
Some product variants of the soft elastomers are produced of less low-molecular siloxane and are therefore suitable for automotive applications.
All ICT SUEDWERK gap fillers - spacers - TC - soft silicones - PADs material types have very high reliability.
- Soft and very form Anpassungsfähig
- Effect even at very low pressure
- Extraordinarily high elasticity and flexibility
- Thickness ranges from 0.3 mm to 10 mm or more (by lamination)
- Effect with very low or zero pressure
- Residue-free removal by application
- Simple pre-assembly by self-adhesion
- Very good mechanical damping properties
- Thermal conductivity up to 12 w/m * k
- Thermal resistance below <0.2 °c-inch2/W possible
- High electrical impact resistance
- Non-combustible according to UL 94 VO
- Self-adhesive on one or both sides
- Delivery format:
In the form of mats: 480x460mm and 460x460mmCustomer dimension-specific special shapes/blanks or on carrier liner (Kisscut)Role format by arrangement (material thickness 1mm) possible
- Processors and Asics on cooling cabinets
- High Power LED/COB
- Flip chips, DSPs, BGAs, Ppgas
- SMD Components on Cooling Housings
- Through-hole vias on aluminium housing
- Components on heat pipes
- RDRAM storage blocks on cooling surfaces
- CD-ROM controls on cold plates
- Capacitors on cold platesTemperature sensors
- Other electronic modules on cooling housing
- Embedded circuit boards
- Control systems in Automotiveanwendungen
- Air compressors and other electrical auxiliary units etc.
- Electrical battery Storage Applications-EV (liquid cooling)
- Notebooks
- Telecom Applications
- Medical Technology
- Industrial computers
- etc.
Unterkategorien in diesem Bereich:
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ICT - Gapfiller - Spacer - Soft & Ultrasoft
Electrically insulating soft and ultra-soft silicone-based, highly heat-conductive Gapfiller so called Spacer are ideal for applications in which, in addition to thermal conductivity, the compensation of extreme tolerances and gaps is particularly important, especially in non-planar structures without the application of pressure, and electrical insulation.
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ICT-TC-Thermal Interface Silicone Soft & Ultra Soft-Pads... the complete product line up will be available soon
Electrically insulating soft and ultra-soft silicone-based, highly heat-conductive Gapfiller -TC-Soft Silicone-PADs & Ultra Soft-Pads are ideal for applications in which, in addition to thermal conductivity, the compensation of extreme tolerances and gaps is particularly important, especially in non-planar structures without the application of pressure, and electrical insulation.