A silicone-based tire dressing that uses aminosilane chemistry to create a factory-satin finish with enhanced durability and water repellency.
Key Chemistry
pH Level
5.0
Active Mechanism
silicone film formation
Surfactants
1 (nonionic)
Expert Analysis
This formula uses aminosilanes (specifically aminoethyl aminopropyl methylsiloxane) as the primary active ingredient, which bonds to tire rubber surfaces through amino groups while providing silicone's characteristic water repellency and gloss enhancement. The water-based carrier system allows the silicone polymers to penetrate the rubber before curing to form a protective barrier, combining the application benefits of water-based systems with silicone durability.
Key Differentiators
- •Uses aminosilane technology rather than traditional dimethyl silicones, potentially offering better substrate adhesion
- •Excellent transparency with full ingredient disclosure of all 6 components
Potential Concerns
- ⚠Carries 'Danger' signal word despite being a tire dressing, indicating significant hazard potential
- ⚠Aminosilane chemistry may require more careful application technique to achieve optimal bonding and avoid streaking
Ingredients
SILOXANES AND SILICONES, 3-[(2-AMINOETHYL)AMINO]PROPYL ME, DI-ME3.5 – 5
CAS: 71750-79-3silicone
ALCOHOLS, C9-11-ISO-, C10-RICH, ETHOXYLATED1 – 2.5
CAS: 78330-20-8surfactant
OCTAMETHYLCYCLOTETRASILOXANE0.1 – 0.2
CAS: 556-67-2silicone
2-METHYLISOTHIAZOL-3(2H)-ONE0.005 – 0.05
CAS: 2682-20-4preservative
1,2-BENZISOTHIAZOL-3(2H)-ONE0.0000001 – 0.005
CAS: 2634-33-5preservative
FORMALDEHYDE0.0000001 – 0.005
CAS: 50-00-0preservative
Source: sds only
Safety Profile
Signal Word
DangerEye Hazard
Causes serious eye damageSkin Hazard
May cause an allergic skin reactionCorrosive to Metals
YesFlammable
No