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| Identification |
| Molecular Structure |
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CAS No. |
67691-13-8 |
| Molecular Formula |
C51H112O22P6Ti |
| Molecular Weight |
1311.16 |
| Name |
Isopropyl tri(dioctylpyrophosphate) titanate |
| Synonymous |
Isopropyl tri(dioctylpyrophosphato) titanate; Diphosphoric acid P,P-bis(2-ethylhexyl) ester; 异丙基三(二辛基焦磷酸酰氧基)钛酸酯 |
| Properties |
| Density |
1.095
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| Flash Point |
150°C
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| Safety & Transportation Information |
| Harzard Symbols |
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| Hs code |
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| Supplier Specification |
| Appearance |
Yellow to amber translucent viscous liquid
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| Purity |
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| Packages |
5 liter, 25 liter and 200 liter/drum
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| Productivity |
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| Storage |
Always keep in air tight container and store in dark, cool, dry and good ventilation place
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| Notes |
In minerals treatment, this chemical can manage moisture content slightly higher than other grades of titanates but moisture content still needs to be kept at less than 2%.
In plastics industries, it is used in minerals filled polar plastics – such as calcium carbonate, talc etc, filled PVC, Nylon, PET (polyester) etc. It can improve mineral dispersion, increase filler content or improve mechanical properties of finish articles. Highly filled of this chemical treated Al(OH)3 or Mg(OH)2 is a must to get HFFR compounds for cable industry.
Treated pigments or minerals can be well dispersed in resin systems with good hiding powder and better coloring. It can improve dry film properties such as chemical corrosion resistance, water resistance, flame resistance etc. In Fiberglass reinforced Al(OH)3 filled unsaturated polyester composites, this chemical can improve flame retard properties and avoid sedimentation of minerals during processing.
In rubber industry, this chemical can improve tear strength, tensile strength as well as antioxidant properties. material.
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