VANABIO SILICONES offers a comprehensive range of performance-enhancing silicone products for sale and solutions to meet the need of customers such as silicone adhesive, fabric, sheets, filler, paste, sealants, thermoset, sealing tape, etc. These include 50000 tons of silanes and siliconates, 60000 tons of silicone fluids, silicone polymers, 18000 tons silicone rubbers, 1000 tons silicone resins and 10000 tons fumed silicas. VANABIO also offers high quality silane and silicone raw material in comparatively low market price, very cost effective.   


Today VANABIO SILICONE's different types of silicone oil have been sold to more than 100 countries around the world, successfully used in Adhesives & Sealants, Agriculture, Automobile, Building & Construction, Coatings & Paints, Electrical & Electronic, Leather & Textile, Molding & Foundry, Olefin Polymerization, Personal Care, Pharmaceuticals, Plastics & Thermoplastics, Polyurethane Foam, Rubber & Tyre. Besides, our organo modified, organic organofunctional silanes and siloxanes, cyclic siloxanes and epoxy silane, hydrophilic silane treatment in dentistry are also popular among customers.  


VANABIO provides silicone oil in various kinds of colours: white, silver, red, gray, grey, beige, black, blue, etc; with different properties: heat proof/heat resistant, high temperature, low modulus, neutral cure, cross linked, soft structural, translucent, transparent, conductive, moldable, platinum, fireproof, glazing, marine, sanitary, thermoplastic; and with different purposes: all purpose, aquarium safe, food grade, body safe, medical grade, for engine, bathroom, window. Buy our silicone to make molds in bulk, and get the competitive wholesale price. For more information like silicone oil viscosity, grade and temperature, price per kg/pound, please feel free to contact us.

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Mechanism of Silane Coupling Agent

Silane Coupling Agent Mechanism

Silane coupling agents are highly versatile compounds that play a crucial role in bonding inorganic and organic materials together. As multifunctional molecules, they possess two distinct ends: an organofunctional group that can react with organic substrates such as polymers, and a silane (or siloxane) group that can bond to inorganic materials like glass, metal, or mineral fillers. This unique structure allows silane coupling agents to effectively 'bridge' the gap between inorganic and organic materials, enhancing the overall properties of the resulting composite material.


Following hydrolysis, the silanols undergo condensation reactions. These reactions can occur amongst silanols themselves or with hydroxyl groups present on the surface of the inorganic material. This process forms a siloxane bond (Si-O-Si), firmly anchoring the silane to the inorganic substrate. The siloxane bond is highly stable and resistant to environmental factors, ensuring a durable connection between the silane coupling agent and the inorganic material.

The other end of the silane molecule features an organofunctional group, engineered specifically to react with the organic material. The nature of these reactions can vary greatly, contingent on the type of organofunctional group and the organic substrate involved. For example, when the organic material is a polymer, the organofunctional group might interact with the polymer during the curing or vulcanization process, forming a secure bond.


In summary, silane coupling agents serve as a molecular bridge between inorganic and organic materials, significantly improving the adhesion between the two. This enhancement can lead to improvements in various properties of the composite material, such as mechanical strength, thermal stability, and chemical resistance. As such, understanding the mechanism of silane coupling agents is crucial for their effective application in diverse fields, including adhesives and sealants, coatings, and composite materials.


How to use Silane Coupling Agent at Inorganic Fillers

How Silane Coupling Agent Is Used To Treat The Inorganic Fillers?

Silane coupling agents are commonly used to modify the surface of inorganic fillers to improve their compatibility with organic polymers. Here is the general process of how it works:

  • Wet Method
    Preparation of Silane Solution

    The first step is to prepare a solution of the silane coupling agent. This typically involves dissolving the silane in a suitable solvent, often with a small amount of water to facilitate hydrolysis.

  • Dry Method
    Reaction

    Once the filler surface is wetted by the silane solution, the silane molecules can react with the hydroxyl groups present on the surface of the filler. This involves the hydrolysis of the alkoxy groups on the silane end of the molecule to form silanols, which then condense with the hydroxyl groups on the filler surface to form siloxane bonds (Si-O-Si), effectively grafting the silane onto the filler surface.


  • Dry Method
    Treatment of the Filler

    The inorganic filler is then immersed in the silane solution, ensuring that the filler's surface is thoroughly wetted by the solution. This can be done in various ways, for instance, by spraying the solution onto the filler, by mixing the filler with the solution in a suitable mixer, or by other methods.

  • Dry Method
    Mixing with the Polymer

    Finally, the treated filler can be mixed with the organic polymer. The organofunctional group on the silane molecule can react with the polymer during this process, forming a chemical bond between the filler and the polymer. This significantly improves the filler's dispersion in the polymer matrix, as well as the adhesion between the filler and the polymer, which can enhance various properties of the resulting composite material.

  • Spray Method
    Drying

    The treated filler is then typically dried to remove the solvent and any unreacted silane, leaving a thin layer of silane molecules chemically bonded to the filler surface.

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