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Elkem Silicones ATRiON R&I Saint-Fons
ATRiON R&I center is located in Saint-Fons in Lyon’s Chemical Valley, France.
On July 1st 2021, Elkem Silicones announced the opening of ATRiON, its new Research and Innovation center in Lyon - France. Short for “atrium and innovation”, ATRiON fosters collaborative and agile research work, reflecting the evolution of research towards more open, more multidisciplinary formats.
Innovating and designing together new solutions for a sustainable wold. Reseach & Innovation strating from quartz to silicones material. Strenghtening innovation through wide analytical know-how.
Multiple & diverse tools to characterize poducts performances.
We contiuously develop testing equipment & methds to fit with market trends.
Ability to anticipate the silicon behaviour along your converting process.
Open innovation accelerates technology breakthrough to shape a better future.
Elkem Silicones has been innovating in the silicone industry for over 65 years. Specialty silicones technologies range from:
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| Chemicals | Construction | Consumer Goods |
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| Electronics | Energy | Life Sciences | Mobility |
Elkem Saint-Fons products
Silicone is an inert synthetic compound that come in a variety of forms (oil, rubber, resin).
Chlorosilane is chemical compounds prepared by reacting silicon powder and methyl chloride (CH3CI) gas through direct synthesis.
The most common silicone oils are linear polysiloxane compounds, that orient in spiral chains, which easily glide and slip over one another.
Depending on processing requirements or usage, silicone fluids may be used as 100 % materials, in a diluted form – mostly in halogenated hydrocarbons, aromatic compounds or high-boiling white spirit.
A silicone compound is made up of a hydrophobic particle (generally silica) dispersed in silicone oil, which produces a foam control or antifoam agent used in a great variety of applications.
Silicone emulsions are silicone oils dispersed in an aqueous system. Emulsions are ideal for surface treatments, being easy to apply, and are simple to prepare.
Silicone grease is silicone oil based thickened with a lithium soap.
Silicone resins are relatively low molecular weight polymers with a three-dimensional branched-chain structure.
Silicone elastomers are compounded using reactive, straight chained molecules together with a cross-linking agent and reinforcement to give good mechanical properties (elasticity, absorption, tear strength).
RTV-1 is a one-component, Room Temperature Vulcanization silicone rubber that cures at room temperature.
RTV-2 silicones are two-component, Room Temperature Vulcanization silicone rubbers, gels or foams.
Heat Cured Rubber is a silicone elastomer formed of straight chains with very high molecular weight.
Liquid Silicone Rubber (LSR) is a two-component system, where long polysiloxane chains are reinforced with specially treated silica.
ATRiON Research & Innovation Center certificates
Management system certificate
Validity date: 22 April 2025
R&I teams work closely with sustainability team within Elkem and within our Open innovation and partners network to prepare sustainable future and build green transition.
Due to their durability and resistance to weathering, chemicals and high temperatures, silicones extend the lifespan of products.
Extended lifespan minimise waste and support the ambition to reduce the demand for primary materials. In fact, it has been found that using products made with silicones saves 9 times more greenhouse gases than what was emitted during the manufacture of these silicone materials.
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Understanding the role of silicon in aluminum alloying
As a critical alloying element, silicon enhances the strength, durability, and heat resistance of aluminum-based materials.
When used in larger amounts, silicon also strongly reduces the melting temperature and increases fluidity and castability of the aluminum alloy, essential for die casting operations. Adding silicon to aluminum is essential for high pressure die casting operations as it strongly reduces the melting temperature and increases fluidity and castability of the aluminum alloy. Silicon will also make materials even lighter as silicon has lower solid density than aluminum, making parts more cost-effective and fuel-efficient in transportation and aerospace industries.
A new stabilisation into the silicones
Elkem is and has been a stable and consistent supplier of stable and high-quality silicon for aluminum alloying. In addition to the regular Si qualities for alloying (as for example our 3003 and 4010 qualities), Elkem is also a supplier of SiLLOY™ brand that is an excellent alternative for applications not requiring Silicon with very low iron content.
For any quality you order from us, we will deliver an alloying material that will meet or exceed your expectations.
Creating a new silicones timing test
Elkem is and has been a stable and consistent supplier of stable and high-quality silicon for aluminum alloying. In addition to the regular Si qualities for alloying (as for example our 3003 and 4010 qualities), Elkem is also a supplier of SiLLOY™ brand that is an excellent alternative for applications not requiring Silicon with very low iron content.
For any quality you order from us, we will deliver an alloying material that will meet or exceed your expectations.
Understanding the role of silicon in aluminum alloying
As a critical alloying element, silicon enhances the strength, durability, and heat resistance of aluminum-based materials.
When used in larger amounts, silicon also strongly reduces the melting temperature and increases fluidity and castability of the aluminum alloy, essential for die casting operations. Adding silicon to aluminum is essential for high pressure die casting operations as it strongly reduces the melting temperature and increases fluidity and castability of the aluminum alloy. Silicon will also make materials even lighter as silicon has lower solid density than aluminum, making parts more cost-effective and fuel-efficient in transportation and aerospace industries.
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Understanding the role of silicon in aluminum alloying
Understanding the role of silicon in aluminum alloying
Understanding the role of silicon in aluminum alloying
Understanding the role of silicon in aluminum alloying
As a critical alloying element, silicon enhances the strength, durability, and heat resistance of aluminum-based materials.
When used in larger amounts, silicon also strongly reduces the melting temperature and increases fluidity and castability of the aluminum alloy, essential for die casting operations. Adding silicon to aluminum is essential for high pressure die casting operations as it strongly reduces the melting temperature and increases fluidity and castability of the aluminum alloy. Silicon will also make materials even lighter as silicon has lower solid density than aluminum, making parts more cost-effective and fuel-efficient in transportation and aerospace industries.
Facts:
- >120 scientists work in ATRiON- Lyon.
- 30 additional scientists in Saint Fons plant and Axel One facilities also dedicated to Research & Innovation mainly for process and scale up activities
- 13 global R&I application centers
- >350 global Researchers in Elkem Silicones
- 7,000 m2 dedicated to innovation
Elkem Atrion markets
Sustainability at Elkem
To learn more about our sustainability initiatives, check our webpage.
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