Silicone polymers and elastomers have particular inherent physical properties including:
Silicone gels share many of these characteristics. Formulated to generate a very soft cured elastomer, they can provide the very best environmental protection and are able to absorb potentially damaging vibration. These soft energy-absorbent gels are suitable for two major application areas: medical and electronics. An additional physical property of many silicone gels is their optical clarity, unlocking new applications in the development of LED lighting technologies.
The silicone chemistry used to produce silicone gels is known as addition cure which uses a platinum based catalyst system. They normally come as 2-part systems with a 1:1 mix ratio, although there are a few 1-part systems available. Most of these gels will cure at room temperature with speeds ranging from 1 to 24 hours. Heat can also be used to accelerate the speed down to a few minutes. Products can be formulated which will only cure with the use of heat and, therefore, have a very long pot life.
When optical clarity is not required fillers can be added to produce tougher gels with slightly more rigidity. If required, a degree of flame retardancy or thermal conductivity can be formulated into the gels. The refractive index can be increased using special polymers, an important feature for many LED applications.
To summarise some of the benefits of silicone gels:
Automotive electronics has become a major user of silicone gels. As circuitry has become smaller and more complex under bonnet applications, which are exposed to wide temperature fluctuations and excessive vibration, require protection. Silicone gel will not cause stress to components during the wide thermal cycles and by nature absorbs the unwanted vibration. Their excellent electrical properties, dielectric strength and resistivity enable designers to use them with confidence.
The most widely known application, breast implants, is not the only medical application for gels – they are also being used to provide protective skin coverings and comfort pads. Pads designed to protect or cushion the body are used for medical conditions ranging from simple corn plasters to cushions designed to prevent pressure sores for wheel chair users or other individuals with mobility problems. In these applications the silicone gel is usually injected into a protective bag of some description.
ACC Silicones will not currently supply product for ‘in the body' applications such as long term breast implants. They will, however, supply products for short term out of body exposure.
One of the fastest growing development areas for silicone gel use is the LED lighting industry. LED's are now used in the manufacture of full colour megascreen displays, signage, display backlighting and for lighting in the automotive, architectural, industrial and domestic markets.
Silicone gels are used within the manufacture of individual high brightness LED's for protection of the diode and to improve light transmission from the diode through the lens. As a packaging material the gel can be used to encapsulate and protect the completed lighting or display units.
|EGel3000||2-part silicone gel low viscosity|
|EGel3002||2 Part silicone gel fast cure|
|EGel3003||2 Part silicone gel low viscosity soft|
|EGel3004||2 Part silicone gel thixotropic|
|EGel3005||2 Part silicone gel low viscosity|
|EGel3100||SILCOTHERM 2 Part silicone gel|
|QGel300||Silicone gel optically clear clear tough|
|QGel331||Silicone Gel Flame Retardant UL approved|