SIO-593 Waterborne Organosilicon Crosslinker

SIO-593 Waterborne Organosilicon Crosslinker is a specially modified organosilicon polymer designed to actively participate in chemical reactions, providing superior adhesion to a wide range of inorganic substrates, particularly glass and certain metal surfaces. This unique polymer significantly improves the coating's performance, enhancing water resistance and boiling water resistance, ensuring long-lasting durability even in harsh conditions.

In addition to its outstanding adhesion properties, SIO-593 strengthens the bond between the coating and the substrate, resulting in a more resilient and reliable coating solution for applications where strong adhesion and environmental resistance are critical.


Price: $21.50/kg        Inquiry Now

Product Features

  • High reactivity and easily miscible with water.
  • Excellent adhesion to inorganic substrates, especially glass and some metals.
  • Enhances the crosslinking density and water resistance of the coating.
  • Increases tear strength and durability of the coating.
  • Exhibits good stability in systems with a pH of 6.0-9.5; systems outside this pH range should evaluate storage stability.

Typical Physical Data

Appearance
Transparent liquid
Active content (120℃/2H)
≥99
Specific gravity (25℃)
0.1020
Flash point (℃)
>100
Refractive index (25℃)
1.421
Solvent
None

Application Areas

  • Waterborne coatings, waterborne inks.
  • Waterborne glass inks, waterborne metal coatings.
  • Recommended addition amount: 0.5-3% by weight of the total formula.
  • Can be added at any stage and air-dried at room temperature; curing at 100℃ gives better results.

Safety, Packaging, and Storage

1. Store in a cool, dry place at room temperature with the container tightly sealed. Avoid moisture and contamination from acidic or alkaline substances.

2. Shelf life is 12 months. This is a non-hazardous product and can be transported as a regular chemical.

3. Packaging: Available in 25KG/180KG non-recyclable plastic barrels or iron barrels.