Sonderhoff FERMASIL - Silicone Foam Gasket Systems

Two-Component, Room-Temperature Cross-Linking Silicone Systems for Sealing, Bonding and Potting

Silicone Systems for Extreme Usage Conditions

FERMASIL is the 2-component silicone system for the manufacturing of soft elastic silicone elastomers and silicone foam seals for extreme usage conditions.

Using FIPFG dispensing technology (Formed-In-Place-Foam-Gasket), FERMASIL is applied directly to the part and cures there at room temperature.

Chemical Reaction and Fermasil Properties

The systems consist of an A-component and a cross-linking B-component, which are mixed with each other in a predetermined mixing ratio. After mixing the components, most systems react by their own at room temperature and generate a soft elastic silicone foam seals or permanent elastic silicone elastomers.

FERMASIL is processed using low pressure mixing and dosing machines for two material components. Suited for silicone sealants in dynamic or static mixing systems. Henkel recommends dynamic mixing systems for increased ease of material processing.

FERMASIL can be used at a constant temperature from -60 up to +180 °C, while maintaining its softness and flexibility at any time. Due to its closed cell structure, FERMASIL does not absorb water and is suitable for use in tropical or damp environments. It is also highly resistant to other chemicals (e. g. commercial cleaning agents, alcohols, diluted acids and lye’s, brake fluids, and cooling agents).

Henkel can draw on the variety of more than 200 application-specific formulations of the FERMASIL product family.

Physical and Chemical Properties

Property	FERMASIL
Appearance	White, grey or black, other colors upon request (also transparent)
Hardness	Gel-like up to Shore A possible
Compression load deflection	From 20 to 150 kPa (at 25 % compression)
Density	From 0.25 g/cm³ to 2 g/cm³
Temperature resistance	From -60 °C to +180 °C (temporary up to +350 °C)
Tensile strength	Up to 4.5 MPa [N/cm²]
Elongation at break	Up to 600 %
Compression set (DVR)	Greater than 97 % (depending on test conditions)
Water absorption	< 1 %
Flame retardancy	Up to UL-94 HF-1 possible
Viscosity of the A component:	from 1,000 mPa·s (liquid) to 250,000 mPa·s (highly pasty)
Optional features	e.g. UL50 conformity, UV resistant, ingress protection class up to IP69K and NEMA 4-6p (achievable with suitable component design), good chemical resistance

Broad Spectrum of Characteristics of FERMASIL

Depending on customer requirements, FERMASIL systems can express many different characteristics. Different part applications are protected effectively in extreme surroundings. Numerous FERMASIL recipes are available for this.

High Temperatures

The different softness grades and flexibilities of special FERMASIL silicone systems are maintained even at long-term temperatures of -60 to +180 °C, in special cases to 250 °C, and for short periods even to +350 °C.

Very Low Water Absorption

Because of the closed-celled structure of silicone foams, they are tropicalized and wet room safe; infiltration protection to IP 69K and NEMA 4-6p are possible.

High Chemical Resistance

FERMASIL silicone systems are resistant to many chemicals (e. g. common cleaning materials, alcohols, dilute acids and alkalis, brake fluids, oils and lubricants, coolants) and are low fogging.

Flexibility

Ease of flow, reactivity and color can be multifariously varied.

Curing at Room Temperature

FERMASIL silicone foams cure on the component at room temperature in a time range from approx. 20 minutes to around 12 hours, becoming a soft foam seal. The part can then be sent on to further processing.

Crystal Clear or Translucent Silicone

PottingTemperature stable to 180 °C, very high tear resistance and flexural strength (example extension at break 600 %), UV-stable.

Flame Protection in Accordance With UL 94 HF-1

FERMASIL silicone systems can be equipped with UL 94 HF-1 flame protection; any flame after this is extinguished within 10 seconds, with max. 30 seconds afterglow.

ATEX Approval

For FERMASIL silicone foam seals, an ATEX approval for component applications in explosive environments e. g. mining, oil drilling is possible.

The Technology

FERMASIL sealing foams can be efficiently and accurately applied onto parts from the most varied industry sectors using the FIPFG (Formed-In-Place Foam Gasket) technology with the Sonderhoff mixing and dosing machines. Depending on the viscosity, they are either freely applied as liquid material into a groove or highly viscous material on a 2D or 3D part surface.

Only the exact interaction of possible setting parameters of the mixing and dosing machine and the selected FERMASIL material system enables a reliable sealing against moisture, dust and other environmental influences together with the overall construction of the industrial component.

The chemical reaction of FERMASIL sealing foams is initiated by mixing the A- and B-components. The applied compound foams up to a uniform gasket under room temperature conditions.

FERMASIL - The Foaming Process

Potting life:	The time span from the mixing of the A- and B-components to the beginning of the foaming time (approx. 5 – 60 sec.). It is also referred to as processability time or service life.
Foaming-up time:	The time span in which the FERMASIL foam system expands to form a sealing body (after approx. 1 – 20 min.).
Tack-free time:	The time from which the sealant surface of FERMASIL foam systems can be touched without causing damage (after approx. 2 - 60 minutes).
Assembly time:	The chemical reaction has progressed so far that the FERMASIL foam systems can bear loads, or the foamed components can be assembled (after approx. 30 minutes - 12 hours).

Application Diversity

THE FERMASIL RANGE SELECTION

The FERMASIL offers effective component protection for the most diverse requirements for sealing, bonding and potting. In the table below, you will find a selection of different silicone systems for various industries, from lighting to control cabinet and automotive construction, to electronics, packaging, and white goods.

Designation	Application	Viscosity mPas	Hardness	Density g/cm3	Other properties
1809-1	Automotive Distance sensors	8,000	80 Shore 00	0.65	Slightly foamed, liquid silicone system, particularly suitable for ultrasonic sensors – good ratio between resonance and absorption behavior
93-VP1	Automotive Drive belt cover	> 100,000	65 Shore 00	0.35	Highly viscous, stable, medium hardness, curing possible without heat treatment
2525-1	Automotive Underbody cover	25,000	35 Shore 00	0.30	Extremely soft, semi-thixotropic, good processability
3510-1-G	Automotive Maintenance cover Ad-Blue	45,000	45 Shore 00	0.25	Soft, semi-thixotropic, good price-performance ratio
6080-1	Automotive Cover	100,000	60 Shore 00	0.30	Thixotropic, medium hardness
91-VP2	Lighting Luminaires, E-boxes, packaging, switch cabinets	approx. 15,000	55 Shore 00	0.30	Liquid, good flow, curing possible without heat treatment, for lighting with ATEX approval
4570-1-DG	Lighting Lighting with ATEX approval	50,000	40 Shore 00	0.25	Soft, semi-thixotropic, good price-performance ratio
4010-LV	Electronics Potting of electronics, battery packs, sensors, PC boards	5,500	40 Shore A	1.00	Very good dielectric properties, good flow rating, color and reactivity adjustable, also able to process gel-like
5507-LV	Packaging Food boxes, packaging covers in contact with food	approx. 15,000	35-50 Shore A	1.15	Fast curing, good mechanical properties
53-2-VP1	Enclosures Switch cabinets, E-boxes, ultrasonic sensors	approx. 8,000	60 Shore 00	0.35	Liquid, PTB approved in electric enclosure applications
47-14	Enclosures	> 100,000	60 Shore 00	0.35	Thixotropic, stable, standard material with medium hardness, UL-50E listed
93-1-VP3-GREY	Enclosures Switch cabinets with ATEX approval	> 100,000	60 Shore 00	0.35	UL50E listed, thixotropic, stable, curing possible without heat treatment
3590-2-DG	Enclosures	80,000	40 Shore 00	0.30	Soft, thixotropic, fast curing
38C3-1	Enclosures	> 100,000	40 Shore 00	0.35	Soft, thixotropic, stable

Good Reasons for Using FERMASIL

... can be used at a constant temperature up to +180 °C, for special types up to +250 °C
and temporary up to +350 °C.
… keeps the greatest possible flexibility even down to -60 °C.
… is a closed cell and therefore nearly does not absorb water.
… is highly resistant to many chemicals.
… is hydrolysis stable and suitable for use in tropical or damp environments.
… is tack-free in 2– 60 minutes, depending on the thermal conditions. A furnace can significantly
shorten the reaction time, but it is not always necessary.
… is processed using a mixing and dosing machine for two components and can be adapted flexibly and quickly to other parts for sealing application at any time.
… develops a cross-linked structure that is extremely resistant to environmental effects
such as humidity, dust, and temperature.
… has an exceptional long-term behavior and almost 100% resetting ability, even after many years of continual use.
… is in some cases also suitable for direct contact with food.

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