Colloidal Silica

Aqueous nanoparticle dispersions of amorphous silicon dioxide provide performance benefits including surface modification, binding, flocculation, strength & durability, and gelling.

Products

Colloidal Silica Sol

Flexisil 14-30

Flexisil 14-30 is an alkaline, aqueous nanoparticle dispersion of amorphous colloidal silica. The dispersion is sodium stabilized and the silica particles have a negative surface charge.

Flexisil 14-40

Flexisil 14-40 is an alkaline, aqueous nanoparticle dispersion of amorphous colloidal silica. The dispersion is sodium stabilized and the silica particles have a negative surface charge.

Flexisil 20-40

Flexisil 20-40 is an alkaline, aqueous nanoparticle dispersion of amorphous colloidal silica. This dispersion is sodium stabilized and the silica particles have a negative surface charge.

Flexisil 2-12

Flexisil 2-12 is an alkaline, aqueous nanoparticle dispersion of amorphous colloidal silica. This dispersion is sodium stabilized and the small silica particles have a negative surface charge.

Flexisil 50-50

ICT Flexisil 50-50 is an alkaline aqueous nanoparticle dispersion of amorphous colloidal silica. This dispersion is sodium stabilized, the silica particles have a negative surface charge, and is considered to be a large particle product.

Flexisil 5-15

Flexisil 5-15 is an alkaline, aqueous nanoparticle dispersion of amorphous colloidal silica. This dispersion is sodium stabilized and the silica particles have a negative surface charge.

Flexisil 8-30

Flexisil 8-30 is an alkaline, aqueous nanoparticle dispersion of amorphous colloidal silica. The dispersion is sodium stabilized, and the silica particles have a negative surface charge.

Flexisil C30

Flexisil C30 is an aqueous nanoparticle dispersion of amorphous colloidal silica. This is a low sodium product.

Flexisil SPS

Flexisil SPS is an alkaline, aqueous nanoparticle dispersion of amorphous colloidal silica. This dispersion is an alumina-modified, highly structured, and high surface area product.

Literature