Titanate Coupling Agent (CAS No. 110438-25-0) (TCA-L12)
|FOB Price:||US $12 / KG|
|Min. Order:||1 Piece|
|Min. Order||FOB Price|
|1 Piece||US $12/ KG|
|Production Capacity:||1, 000 tons/year|
|Payment Terms:||L/C, T/T, Western Union|
- Titanate Coupling Agent
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- Model NO.: TCA-L12
- Classification: Chemical Additives
- Appearance: Liquid
- Trademark: TiLink
- Origin: China
- Efficacy: Adhesion Promoter
- Type: Coupling Agent
- Color: Yellow
- Specification: SGS
- HS Code: 2931000090
Titanate Coupling Agent TCA-L12 (CAS No. 110438-25-0) is a neoalkoxy phosphate titanate coupling agent, it has a better thermostability compared to traditional monoalkoxy titanates. Its function is similar to Ken-React LICA 12 from Kenrich Petrochemicals, Inc.
Name: Titanium IV 2, 2(bis 2-propenolatomethyl)butanolato, tris(dioctyl)phosphato-O
Synonyms: Neopentyl(diallyl)oxy, tri(dioctyl)phosphato titanate
CAS Registry Number: 110438-25-0
Ken-React® LICA 12 from Kenrich Petrochemicals, Inc.
Appearance: Yellow brow, transparent viscous liquid
Viscosity(25. Cps): 1800
Flash Point (. TCC): 125
Solubility: Soluble in isopropyl alcohol, xylene and toluene. Reacts with DOP and H2O.
Applications and Performance
Coupling Agents are molecular bridges at the interface between two substrates, usually but not limited to an inorganic filler/fiber and an organic polymer matrix. Titanium-derived coupling agents react with free protons at the inorganic interface resulting in the formation of organic-titanium monomolecular layers on the inorganic surface. Additionally, the coupling agent may have up to Six Functions in the matrix-which include polymer catalysis and other heteroatom effects-independent of inorganic content.
Typically, titanate-treated inorganics are hydrophobic, organophilic, and organofunctional. Fillers may be pretreated or treated in situ absent water of condensation and drying techniques as needed with silanes. When used in polymers, titanates can increase adhesion; Improve impact strength and mechanical properties; Reduce embrittlement; Allow higher filler loadings; Optimize particulate dispersion; Increase flow of filled and unfilled polymers at lower process temperatures; Prevent phase separation; And may have other effects.
Proton reactivity allows coupling to almost all inorganic and organic substrates such as CaCO3, carbonates, carbon black, graphite, minerals, nano-particulates, silicas, silicates, metals, metal oxides, peroxides, hydrates, acetates, borates, sulfates, nitrates, nitramines, aramid, organic pigments, cellulosics, sulfur, azodicarbonamide, polymers, etc.
Its powder form and capsule form are also available for our customer.