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A phosphazene compound, a composition comprising the phosphazene compound, a flame retardant comprising it and applications

A composition and compound technology, applied in the field of flame retardant compounds, can solve problems such as lack of exploration

Active Publication Date: 2019-08-06
WEIFANG MEDICAL UNIV +4
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This patent has made a useful attempt, broadening and exploration of the synthesis process of chlorophosphazene, but lacks the exploration of the effect of chlorophosphazene and corresponding flame retardant products in practical applications, and there is no research on chlorophosphazene compounds. Research on the relationship between crystal morphology, crystal morphology and preparation process, and implementation effect

Method used

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  • A phosphazene compound, a composition comprising the phosphazene compound, a flame retardant comprising it and applications
  • A phosphazene compound, a composition comprising the phosphazene compound, a flame retardant comprising it and applications
  • A phosphazene compound, a composition comprising the phosphazene compound, a flame retardant comprising it and applications

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0213] Embodiment 1. (about polychlorophosphazene, formula 3)

[0214] This example involves the compound The preparation and characterization of its crystalline form and performance-related studies.

[0215] In the scheme that the present invention implements, get each component raw material by phosphorus pentachloride: ammonium chloride: the mol ratio of catalyst=1: 1.1: 0.1, use organic solvent 1 2400~2600 grams per mole of phosphorus pentachloride Proportionally take organic solvent I; add phosphorus pentachloride and organic solvent I to reactor A under nitrogen protection, heat up to 80°C and stir at this temperature for 1 to 2 hours until phosphorus pentachloride is completely dissolved; Add ammonium chloride, catalyst and organic solvent I to reactor B under protection, start stirring, raise the temperature to reflux, slowly add the solution in reactor A to reactor B dropwise under reflux, after the dropwise addition Continue to stir under reflux for 1 to 2 hours; c...

Embodiment 2

[0221] Embodiment 2. (about hexachlorocyclotriphosphazene, formula 4)

[0222] This embodiment also relates to the preparation and synthesis of chlorophosphazene, mainly relating to the synthesis, crystal form and properties of hexachlorocyclotriphosphazene. In the present embodiment, get each component raw material by phosphorus pentachloride: ammonium chloride: composite catalyst (pyridine and catalyzer)=1: 1.1: 0.06 molar ratio, use organic solvent I 2400 by every mole of phosphorus pentachloride Take the organic solvent I at a ratio of ~2600 grams; add phosphorus pentachloride and organic solvent I to the reactor A under nitrogen protection, heat up to 80°C and stir at this temperature for 1 to 2 hours until the phosphorus pentachloride is completely Dissolving; Add ammonium chloride, compound catalyst (pyridine and divalent metal chloride) and organic solvent I into reactor B under nitrogen protection, start stirring, heat up to reflux, and slowly put reactor A under refl...

Embodiment 3

[0236] Embodiment 3 (phenoxyphosphazene compound, formula 5)

[0237] This embodiment involves the preparation of phenoxyphosphazene compounds, the characterization and research of crystal forms, and the testing of flame retardancy.

[0238] In this embodiment, the chlorophosphazene synthesized in the above examples can be used as one of the starting materials. Get each component raw material by the mol ratio of chlorophosphazene (from the preparation product of embodiment 1): phenol: acid-binding agent=1: 6.1: 12.2, by every 1 gram of formula chlorophosphazene with organic solvent III5~6 grams Proportionally take the organic solvent; under the protection of nitrogen, add chlorophosphazene, acid-binding agent and organic solvent III to reactor A, slowly add phenol dropwise to reactor A at a temperature lower than 40°C, and then raise the temperature to reflux Stir at reflux temperature for 3 to 5 hours; cool to room temperature, filter, wash the mother liquor with water, and ...

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Abstract

The present invention relates to a phosphazene compound, a composition comprising the phosphazene compound, a flame retardant comprising same, and the use thereof. The crystal form of a cyclotriphosphazene derivative flame retardant synthesized according to the present invention is the most stable crystal form, and same has a good heat stability and a high flame retardant efficiency; moreover, materials, whether engineering plastics or general-purpose plastics, as well as lithium ion battery electrolyte solutions, flame retardant fabrics and flame retardant papers, to which the crystal type cyclotriphosphazene derivative flame retardant synthesized according to the present invention has been added, are provided with an excellent flame retardant performance, a stable crystal form, and drip resistance, and only an extremely small addition amount is required to allow the flame retardant performance of a material to achieve V-0 standards, while the impact on the other properties of the material is relatively small.

Description

technical field [0001] The invention relates to the field of chemical industry, more specifically, to a compound applicable to a flame retardant, a composition containing the compound and a production method thereof. The invention also provides the application of the compound and the composition containing the compound in flame retardancy in various industrial productions. Background technique [0002] my country is a big producer and user of organic materials. The fires caused by the burning of organic materials cause serious personal and property losses every year, and most organic materials tend to release a large amount of toxic gases when heated or burned, so they are not suitable for food packaging that has been heated repeatedly. It is not conducive to the escape of personnel at the scene of a fire accident caused by the burning of organic materials. For a long time, both at home and abroad have attached great importance to the research and product development of envi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C07F9/6593C08K5/5399
CPCC07F9/65815C08K5/5399
Inventor 宋伟国吴豫生李新建王西龙杜军明王忠卫
Owner WEIFANG MEDICAL UNIV
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