November 1 2001 clemens j.
Liquid silicone rubber thermal conductivity.
For many years the.
Thermal conductivity 9 flame retardancy 9 electrical conductivity 9 compression set 10 flex fatigue resistance 10 tear strength and tensile strength 11.
Main applications are flexible seals o rings etc.
New carbon materials 2020 35 1.
Silicone rubber can be immersed in water cold water warm water boiling water for long periods with water absorption of about 1.
2 2 4 silicone rubber sir silicone rubber sir is an elastomer composed of silicone containing silicon carbon hydrogen and oxygen in the form of a polymer.
Silicone rubber unfilled 0 2 glass 1 1 stainless steel 15 aluminium 220 table 1 thermal conductivity of common substances as can be seen a typical unfilled silicone rubber has a thermal conductivity of approximately 0 2 w m k and even a highly filled silicone elastomer can barely exceed 0 4 w m k.
There are different types depending on functional groups in the structure and curing mechanisms.
Song in progress in rubber nanocomposites 2017.
Silicone rubbers are often one or two part polymers and may contain fillers to improve properties or reduce cost.
Untreated silicone in gel or liquid form will convert to solid after curing.
Silicone rubber is an elastomer rubber like material composed of silicone itself a polymer containing silicon together with carbon hydrogen and oxygen silicone rubbers are widely used in industry and there are multiple formulations.
The thermal conductivity of silicone rubber is higher in comparison with common organic rubbers.
Silicones are polymers with a si o si backbone.
4 as a function of the weight fraction of the fillers.
Carbon infused silicone rubber is preferred to meta filled organic rubber because of overall better mechanical performance.
The thermal conductivity of dimethyl silicone fluid is lower than that of common organic compounds nearly the same as that of benzene and toluene and is roughly 25 that of water.
Jia long lin et al.
By infusing rubber silicone with carbon black a small amount of conductivity can be imparted into the material while still retaining its superior physical properties.
Although thermal conductivity increases with higher viscosities it becomes nearly constant at viscosities above 100 mm 2 s.
When the material contains a high amount of inorganic fillers the conductivity can be improved twice which makes the material adequate for thermal interface sheets and heating rollers.
The curing method can be either vulcanized or catalyzed.
