CN102337034A - Halogen-free high-efficiency flame retardant composition and preparation method thereof - Google Patents

Abstract

The invention discloses a halogen-free high-efficiency flame retardant composition and a preparation method thereof. The components and mass percentages of the halogen-free flame retardant composition of the present invention include: benzomelamine carboxyethylphenylphosphinic acid condensate 10-80%, melamine and/or its derivatives 15-70%, organic phosphoric acid Ester 5-20%. The halogen-free flame retardant composition of the present invention can be used for the flame retardancy of synthetic materials and textiles such as various polyolefins, nylon, polyurethane and polyester, and is especially suitable for polyester and nylon engineering plastics, adding 12% to PBT resin (wt) Its flame retardant grade can reach UL94 V-0 grade (1.6mm). The flame retardant compound of the invention has the characteristics of high flame retardant efficiency, good fluidity, no precipitation, etc., and can meet the use requirements of flame retardant resins for electrical shells and brackets, electronic and electrical connectors, and the like.

Description

A kind of halogen-free high-efficiency flame retardant composition and its preparation method

technical field

The invention relates to a halogen-free high-efficiency flame retardant composition which can be used for various polyolefins, nylon, polyurethane, polyester and other synthetic materials and textiles for flame retardancy and its preparation method, in particular to a new type of benzomelamine carboxyethyl phenyl phosphinic acid condensate as the main flame retardant, a halogen-free high-efficiency flame retardant composition compounded with organic phosphate and melamine and/or its derivatives and its preparation method; the composition of the present invention is especially suitable A halogen-free high-efficiency flame retardant composition for flame-retardant modification of polyester and nylon engineering plastics. The halogen-free high-efficiency flame retardant composition of the present invention has high-efficiency flame retardancy, high fluidity, and no precipitation of the flame retardant. Features; at the same time, according to the needs of the application, an appropriate amount of antioxidants, light stabilizers and processing aids can be added, and it can also be mixed with other halogen flame retardants and inorganic flame retardants.

Background technique

Since the 1980s, flame retardants have become the largest additives used in synthetic materials next to plasticizers. With the development of the economy, people's awareness of environmental protection and safety has greatly improved, and they are more concerned about the ecological environment and the value of life. Traditional halogen-based flame retardants are widely used in the production of flame-retardant materials due to their high flame-retardant efficiency, but because halogen-based flame-retardant products produce a large amount of smoke and toxic corrosive gases during combustion, it hinders rescue and personnel evacuation , leading to secondary disasters. Therefore, the application of halogen flame retardant products is limited. Halogen-free flame retardants are widely used due to their environmental friendliness such as low smoke and low toxicity. The use of high-efficiency, low-smoke, non-toxic or low-toxic halogen-free flame retardants will become an inevitable trend in the development of flame-retardant materials in the future. In recent years, inorganic filler flame retardants and phosphorus flame retardants have received widespread attention.

Phosphorus-based flame retardants have attracted much attention in the field of halogen-free flame retardants due to their high flame retardant efficiency. Most of the traditional phosphorus-based flame retardants have defects such as volatility and easy hydrolysis. Therefore, the development of phosphorus-based flame retardants with low volatility and low hydrolysis of macromolecules is the focus of future development. Chinese patent ZL200710048573 describes the esterification reaction of pentaerythritol and carboxyethylphenylphosphinic acid, and the reaction product is pentaerythritol carboxyethylphenylphosphinate, which contains both phosphorus and pentaerythritol carbon-forming groups. Chinese patent ZL200410069309 describes the synthesis method of pentaerythritol diphosphate melamine salt. However, the synthesis of the intermediate product pentaerythritol phosphate needs to react for 7 to 10 hours, the reaction time is too long, and the solvent is benzene, which has a great impact on the environment.

Chinese patent CN101928448A describes a metal hypophosphite (including aluminum hypophosphite, magnesium hypophosphite, calcium hypophosphite, zinc hypophosphite) and nitrogen-containing flame retardants (including melamine polyphosphate, melamine cyanurate, honey melamine, melamine pyrophosphate) to compound the obtained flame retardant composition, and then blend it with polyester to obtain a preparation method of nanocomposite flame retardant reinforced polyester engineering plastics, this technology overcomes the modification of polyester reinforced materials The existing halogen-containing flame retardants have the disadvantages of high environmental hazards, high addition of inorganic flame retardants, and poor physical properties of materials; however, most of the flame retardant composition is metal inorganic salts, which are easy to precipitate, which has a negative impact on material processing performance and The mechanical properties of the final product have a great negative effect. The invention adopts a modified nano-additive to solve this problem, but the preparation process of this additive is complicated, industrial production is difficult to realize, and the practical application range is limited.

Chinese patent CN101280105A describes mixing a surface-treated hypophosphite and silane as a flame retardant to modify nylon 66 to obtain a high-performance halogen-free flame-retardant composite material. However, the flame retardant is in the preparation process. It needs grinding and repeated high-temperature treatment, and the steps are complicated; and the fluidity of the composite flame retardant is not good, and the metal salt has a great influence on the physical and chemical properties of polyester and nylon products, making the overall performance of the material unsatisfactory.

For this reason, it is necessary to explore a new type of halogen-free flame retardant system that is more efficient, high fluidity, and difficult to precipitate, so as to achieve a certain level of flame retardancy, and has no negative impact on the processing performance and the comprehensive mechanical properties of the modified material. Flame retardant system.

Contents of the invention

The object of the present invention is to propose a halogen-free high-efficiency flame retardant composition and a preparation method thereof. The present invention is aimed at the characteristics that phosphorus-based flame retardants are mostly used in combination with nitrogen-containing compounds, and adopts a novel benzomelamine carboxyethylphenylphosphinic acid condensate as shown in (I) as the main flame retardant. It is compounded with organic phosphate, melamine and/or its derivatives to prepare a halogen-free high-efficiency flame retardant composition. The composition not only has the characteristics of high flame retardant efficiency, good fluidity, and no precipitation; it also has the characteristics of high phosphorus and nitrogen content, good compatibility, high thermal stability, and good hydrolysis resistance. Because the structure of (I) contains a triazine ring segment, its thermal stability is greatly improved, its decomposition temperature is above 280°C, and its synthetic raw materials are easy to obtain, so it is easy to realize industrial production and application. At the same time, the triazine ring structure in the molecular structure also greatly improves the char formation and flame retardancy of the flame retardant system, showing the excellent synergistic flame retardant synergistic effect of phosphorus and triazine rings in the same molecule. The flame retardant composition prepared by the invention can be widely used in the flame retardancy of various polyolefins, nylon, polyurethane, polyester and other synthetic materials and textiles.

A halogen-free high-efficiency flame retardant composition of the present invention, said composition is a mixture, and its components and mass percentages include:

Benzomelamine carboxyethylphenylphosphinic acid condensate 10-80wt%;

Melamine and/or its derivatives 15-70wt%;

Organic phosphate 5-20wt%;

in,

The structural formula of the described benzomelamine carboxyethyl phenyl phosphinic acid condensate is

In the formula, n represents the number of condensation segments, n=2～50;

The melamine derivative is melamine cyanurate, melamine phosphate, melamine polyphosphate or melamine borate.

As a preferred technical solution:

In the above-mentioned high-efficiency halogen-free flame retardant composition, the amount of the benzomelamine carboxyethylphenyl phosphinic acid condensate is 20-65% by weight of the composition.

A halogen-free high-efficiency flame retardant composition as described above, the melamine and/or its derivatives refer to one of melamine, melamine cyanurate, melamine phosphate, melamine polyphosphate or melamine borate species or mixtures thereof.

According to the above-mentioned high-efficiency halogen-free flame retardant composition, the amount of the melamine and/or its derivatives is 20-50% by weight of the composition.

A halogen-free high-efficiency flame retardant composition as described above, the organic phosphate refers to cyclic phosphate, triphenyl phosphate, diphenyl isooctyl phosphate, diphenyl isodecyl phosphate, triisopropylphenyl One of phosphoric acid ester, triisooctyl phosphate, m-phenylene tetraphenyl diphosphate, bisphenol A bis(diphenyl phosphate) or m-phenylene tetra(xylyl) diphosphate or its mixture.

A halogen-free high-efficiency flame retardant composition as described above, the cyclic phosphate refers to a phosphate with one or more ring structures, such as (II), (III), (IV), Cyclic phosphate esters of (V) or (VI) structure:

Wherein, R is equal to H, a linear or branched alkyl or aryl group, or an alkyl or aryl group containing substituents.

The present invention also provides a preparation method of a halogen-free high-efficiency flame retardant composition, comprising fully mixing benzomelamine carboxyethylphenylphosphinic acid condensate, melamine and/or its derivatives and organic phosphate in a mixer Mix evenly to obtain a halogen-free high-efficiency flame retardant composition; the feeding ratio is as follows:

Benzomelamine carboxyethylphenylphosphinic acid condensate 10-80wt%;

Melamine and/or its derivatives 15-70wt%;

Organic phosphate 5-20wt%;

in,

The structural formula of described melamine carboxyethyl phenyl phosphinic acid condensate is

In the formula, n represents the number of condensation segments, n=2～50;

The melamine derivative is melamine cyanurate, melamine phosphate, melamine polyphosphate or melamine borate.

A method for preparing a halogen-free high-efficiency flame retardant composition as described above, the amount of the benzomelamine carboxyethylphenylphosphinic acid condensate is 20 to 65% of the mass percentage of the composition; the melamine And/or its derivatives are used in an amount of 20-50% of the mass percentage of the composition.

The preparation method of a halogen-free high-efficiency flame retardant composition as described above, the organic phosphate refers to cyclic phosphate, triphenyl phosphate, diphenyl isooctyl phosphate, diphenyl isodecyl phosphate, triiso Propylphenyl phosphate, triisooctyl phosphate, m-phenylene tetraphenyl bisphosphate, bisphenol A bis(diphenyl phosphate) or m-phenylene tetra(xylyl) bisphosphate one or a mixture thereof.

A method for preparing a halogen-free high-efficiency flame retardant composition as described above, the cyclic phosphate refers to a phosphate with one or more ring structures, such as (II), (III), ( Cyclic phosphate esters of structure IV), (V) or (VI):

Wherein, R is equal to H, a linear or branched alkyl or aryl group, or an alkyl or aryl group containing substituents.

Beneficial effect

The beneficial effect of the present invention is: the present invention is aimed at the characteristics that phosphorus-based flame retardants are mostly compounded with nitrogen-containing compounds, and the benzomelamine carboxyethylphenylphosphinic acid condensate having the structure shown in (I) is used as The main component is to prepare a high-efficiency and environment-friendly flame retardant composition. The composition has the characteristics of high phosphorus and nitrogen content, good compatibility, high thermal stability, and good hydrolysis resistance. Because (I) contains triazine ring segments in the molecular structure, its thermal stability is greatly improved, and its decomposition The temperature is above 280°C, and the synthetic raw materials are easy to obtain, which is easy to realize industrial production and application. At the same time, the triazine ring structure in its molecular structure also greatly improves the char formation and flame retardancy of the flame retardant system, showing the same molecule The excellent synergistic effect of phosphorus and triazine ring in flame retardant. The halogen-free high-efficiency flame retardant composition provided by the present invention has the characteristics of high-efficiency flame retardancy, high fluidity, and no precipitation of the flame retardant, and can be widely used in synthetic materials such as various polyolefins, nylon, polyurethane and polyester, and Flame Retardancy of Textiles.

Specific implementation methods:

The present invention will be further described below in combination with specific embodiments. It should be understood that these examples are only used to illustrate the present invention and are not intended to limit the scope of the present invention. In addition, it should be understood that after reading the content of the present invention, those skilled in the art may make changes or modifications to the present invention, and these equivalent forms also fall within the scope limited by the appended claims of the present application.

A halogen-free high-efficiency flame retardant composition of the present invention, said composition is a mixture, and its components and mass percentages include:

Benzomelamine carboxyethylphenylphosphinic acid condensate 10-80%;

Melamine and/or its derivatives 15-70%;

Organic phosphate 5-20%;

in,

Described benzomelamine carboxyethylphenyl phosphinic acid condensate refers to the compound with following structure (I):

In the formula, n represents the number of condensation segments, n=2～50;

The melamine derivative is melamine cyanurate, melamine phosphate, melamine polyphosphate or melamine borate.

In the above-mentioned high-efficiency halogen-free flame retardant composition, the amount of the benzomelamine carboxyethylphenyl phosphinic acid condensate is 20-65% by weight of the composition.

A halogen-free high-efficiency flame retardant composition as described above, the melamine and/or its derivatives refer to one of melamine, melamine cyanurate, melamine phosphate, melamine polyphosphate or melamine borate species or mixtures thereof.

According to the above-mentioned high-efficiency halogen-free flame retardant composition, the amount of the melamine and/or its derivatives is 20-50% by weight of the composition.

A halogen-free high-efficiency flame retardant composition as described above, the organic phosphate refers to cyclic phosphate, triphenyl phosphate, diphenyl isooctyl phosphate, diphenyl isodecyl phosphate, triisopropylphenyl One of phosphoric acid ester, triisooctyl phosphate, m-phenylene tetraphenyl diphosphate, bisphenol A bis(diphenyl phosphate) or m-phenylene tetra(xylyl) diphosphate or its mixture.

A halogen-free high-efficiency flame retardant composition as described above, the cyclic phosphate refers to a phosphate with one or more ring structures, such as (II), (III), (IV), Cyclic phosphate esters of (V) or (VI) structure:

Wherein, R is equal to H, a linear or branched alkyl or aryl group, or an alkyl or aryl group containing substituents.

Example 1

Add 65% of benzomelamine carboxyethylphenyl hypophosphorous acid condensate, 20% of melamine cyanurate, and 15% of cyclic phosphoric acid ester (VI) (R=H) into the mixture Mix evenly in a machine, and then pulverize with a pulverizer to obtain a halogen-free high-efficiency flame retardant composition with high flame retardant efficiency, good fluidity, and no precipitation.

The flame retardant composition accounting for 12% of the total mass percentage of the material is melt-blended with PBT resin, injected, cooled, and pelletized to obtain flame-retardant PBT pellets with a flame-retardant grade of up to UL94V-0 (1.6mm) .

Example 2

Weigh 20% benzomelamine carboxyethylphenyl hypophosphorous acid condensate, 30% melamine cyanurate, 15% melamine phosphate, 25% melamine polyphosphate, 5% Triphenyl phosphate, mixed evenly, pulverized and put into the mixer, then added 5% tricumyl phosphate, mixed evenly, you can get high flame retardant efficiency, good fluidity, halogen-free high-efficiency flame retardant agent composition.

The flame retardant composition accounting for 15% of the total mass percentage of the material is melt-blended with nylon 6 resin, injected into a tape, cooled and pelletized to obtain flame-retardant nylon 6 grains with a flame-retardant grade of UL94V-0 (1.6mm) material.

Example 3

Weigh 80% of benzomelamine carboxyethylphenyl hypophosphorous acid condensate, 5% of melamine cyanurate, and 10% of melamine polyphosphate, which account for 80% of the total mass percentage of the composition, mix them evenly, pulverize them and put them into a mixer , and then add 5% m-phenylene tetrakis (xylyl) bisphosphate and mix evenly to obtain a halogen-free high-efficiency flame retardant composition with high flame retardant efficiency and good fluidity.

The flame retardant composition, which accounts for 25% of the total mass percentage of the material, is melt-blended with PP resin, injected, cooled, and pelletized to obtain flame-retardant PP pellets with a flame-retardant grade of UL94 V-1 (1.6mm). material.

Example 4

Weigh 40% of benzomelamine carboxyethylphenyl hypophosphite condensate, 30% of melamine polyphosphate, and 10% of melamine cyanurate, which account for 40% of the total mass percentage of the composition, mix them evenly, pulverize them and put them into a mixer , and then add 5% diphenyl isooctyl phosphate, 15% m-phenylene tetraphenyl bisphosphate, mix evenly, you can get a halogen-free high-efficiency flame retardant with high flame retardant efficiency, good fluidity, and no precipitation. fuel composition.

The flame retardant composition, which accounts for 20% of the total mass percentage of the material, is melt-blended with PC resin, injected into a belt, cooled and pelletized to obtain flame-retardant PC pellets with a flame-retardant grade of UL94 V-0 (1.6mm) .

Example 5

Weigh 65% of benzomelamine carboxyethylphenyl hypophosphorous acid condensate and 15% of melamine polyphosphate, mix uniformly, pulverize and put into mixer, then add 12% of phosphoric acid diphosphate Benzyl isooctyl ester and 8% bisphenol A bis(diphenyl phosphate) are uniformly mixed to obtain a halogen-free high-efficiency flame retardant composition with high flame retardant efficiency, good fluidity and no precipitation.

The flame retardant composition accounting for 20% of the total mass percentage of the material is melt-blended with polyurethane resin, injected into a belt, cooled and pelletized to obtain flame-retardant polyurethane pellets with a flame-retardant grade of UL94 V-0 (1.6mm) .

Example 6

Weigh 65% of benzomelamine carboxyethylphenyl hypophosphorous acid condensate and 20% of melamine borate, mix uniformly, pulverize and put into mixer, then add 5% triphosphate Isooctyl ester, 5% bisphenol A bis(diphenyl phosphate) (common abbreviation BDP), 5% cyclic phosphate (IV), mix evenly, you can get high flame retardant efficiency and good fluidity Halogen-free high-efficiency flame retardant composition.

The flame retardant composition accounting for 22% of the total mass percentage of the material is melt-blended with ABS resin, injected into a belt, cooled and pelletized to obtain flame-retardant ABS pellets with a flame-retardant grade of UL94 V-2 (1.6mm) .

Example 7

Weigh 30% of benzomelamine carboxyethylphenyl hypophosphorous acid condensate and 50% of melamine borate, mix uniformly, pulverize and put into mixer, then add 10% of phosphoric acid diphosphate Benzyl isooctyl ester, 5% cyclic phosphoric acid ester (I), and 5% tricumyl phosphate ester, first crush the solid material and then add it to the mixer, and mix evenly to obtain high flame retardant efficiency and flow High performance halogen-free high-efficiency flame retardant composition.

The flame retardant composition, which accounts for 15% of the total mass percentage of the material, is melt-blended with PC resin, injected into a belt, cooled and pelletized to obtain a flame-retardant PC resin with a flame-retardant grade of UL94 V-0 (1.6mm).

Example 8

Take by weighing 27% benzomelamine carboxyethylphenyl hypophosphite condensate, 20% melamine borate, 30% melamine polyphosphate, 5% melamine cyanurate, and mix Uniformly crushed and put into the mixer, then add 15% diphenyl isooctyl phosphate, 3% tricumyl phosphate, mix evenly, you can get high flame retardant efficiency, good fluidity, halogen-free Highly efficient flame retardant composition.

The flame retardant composition, which accounts for 25% of the total mass percentage of the material, is blended with the epoxy resin material to obtain a flame retardant material with a flame retardant rating of UL94 V-0 (1.6mm).

Example 9

Weigh 36% of benzomelamine carboxyethylphenyl hypophosphite condensate, 30% of melamine borate, 10% of melamine cyanurate, 10% of melamine phosphate, and mix uniformly , Put it into a mixer after pulverization, then add 8% of diphenyl isooctyl phosphate and 6% of cyclic phosphate (II), and mix evenly to get high flame retardant efficiency, good fluidity, halogen-free and high-efficiency Flame retardant composition.

The flame retardant composition, which accounts for 20% of the total mass percentage of the material, is melt-blended with EVA resin, injected into a tape, cooled and pelletized to obtain a flame-retardant EVA resin with a flame-retardant grade of UL94 V-1 (1.6mm).

Example 10

25% of benzomelamine carboxyethylphenyl hypophosphorous acid condensate, 30% of melamine cyanurate, 5% of melamine phosphate, 20% of melamine borate, 20% of The cyclic phosphate ester (V) is put into a mixer and mixed evenly, and then pulverized by a pulverizer to obtain a halogen-free high-efficiency flame retardant composition with high flame retardant efficiency, good fluidity and no precipitation.

The flame retardant composition accounting for 15% of the total mass percentage of the material is melt-blended with PA66 resin, injected, cooled, and pelletized to obtain flame-retardant nylon 66 with a flame-retardant grade of UL94 V-0 (1.6mm). .

Example 11

Weigh 60% of benzomelamine carboxyethylphenyl hypophosphite condensate, 15% of melamine cyanurate, and 10% of melamine polyphosphate, which account for 60% of the total mass percentage of the composition, mix them evenly, pulverize them and put them into a mixer , and then add 10% of diphenyl isooctyl phosphate and 5% of cyclic phosphate (III), and mix uniformly to obtain a halogen-free high-efficiency flame retardant composition with high flame retardant efficiency and good fluidity.

The flame retardant composition accounting for 35% of the total mass percentage of the material is added to the acrylate coating glue (solid content 42%), coated on the surface of the polyester/cotton blended fabric, spread evenly, and dried to obtain a flame retardant Flame-retardant textile fabrics up to UL94 V-0 (1.6mm).

Claims (10)

1. A halogen-free high-efficiency flame retardant composition is characterized in that: the composition is a mixture and comprises the following components in percentage by mass:

10-80% of benzoguanamine carboxyethyl phenyl phosphinic acid condensate;

15-70% of melamine and/or derivatives thereof;

5-20% of organic phosphate.

Wherein,

the benzoguanamine carboxyethyl phenyl phosphinic acid condensate refers to a compound with the following structure (I):

wherein n represents the number of condensation chain segments, and n is 2 to 50;

the melamine derivative is melamine cyanurate, melamine phosphate, melamine polyphosphate or melamine borate.

2. The halogen-free high-efficiency flame retardant composition according to claim 1, wherein the amount of the benzoguanamine carboxyethyl phenyl phosphinic acid condensate is 20-65% by weight of the composition.

3. The halogen-free high efficiency flame retardant composition of claim 1 wherein the melamine and/or its derivatives is one or a mixture of melamine, melamine cyanurate, melamine phosphate, melamine polyphosphate or melamine borate.

4. The halogen-free high-efficiency flame retardant composition according to claim 1, wherein the melamine and/or the derivative thereof is used in an amount of 20 to 50% by mass of the composition.

5. The halogen-free high efficiency flame retardant composition of claim 1 wherein the organic phosphate is one or a mixture of cyclic phosphate, triphenyl phosphate, diphenyl isooctyl phosphate, diphenyl isodecyl phosphate, triisopropylphenyl phosphate, triisooctyl phosphate, m-phenylene tetraphenyl diphosphate, bisphenol A bis (diphenyl phosphate) or m-phenylene tetraxylyl diphosphate.

6. The halogen-free high efficiency flame retardant composition of claim 5 wherein the cyclic phosphate ester is a phosphate ester having one or more cyclic structures, such as (II), (III), (IV), (V) or (VI):

wherein R is equal to H, straight chain or branched chain alkyl or aryl, or alkyl or aryl containing substituent.

7. The method for preparing halogen-free high-efficiency flame retardant composition according to claim 1, which is characterized in that: fully and uniformly mixing a benzoguanamine carboxyethyl phenyl phosphinic acid condensate, melamine and/or derivatives thereof and organic phosphate in a mixer to obtain a halogen-free high-efficiency flame retardant composition;

10-80 wt% of benzoguanamine carboxyethyl phenyl phosphinic acid condensate;

15-70 wt% of melamine and/or derivatives thereof;

5-20 wt% of organic phosphate;

wherein,

the structural formula of the benzoguanamine carboxyethyl phenyl phosphinic acid condensate is shown in the specification

Wherein n represents the number of condensation chain segments, and n is 2 to 50;

the melamine derivative is melamine cyanurate, melamine phosphate, melamine polyphosphate or melamine borate.

8. The method for preparing the halogen-free high-efficiency flame retardant composition according to claim 7, wherein the amount of the benzoguanamine carboxyethyl phenyl phosphinic acid condensate is 20-65% by weight of the composition; the amount of the melamine and/or the derivatives thereof is 20-50% of the composition by mass.

9. The method of claim 7, wherein the organic phosphate is one or a mixture of cyclic phosphate, triphenyl phosphate, diphenyl isooctyl phosphate, diphenyl isodecyl phosphate, triisopropylphenyl phosphate, triisooctyl phosphate, m-phenylene tetraphenyl diphosphate, bisphenol A bis (diphenyl phosphate) or m-phenylene tetraxylyl diphosphate.

10. The method of claim 9, wherein the cyclic phosphate ester is a phosphate ester having one or more cyclic structures, such as (II), (III), (IV), (V) or (VI):

wherein R is equal to H, straight chain or branched chain alkyl or aryl, or alkyl or aryl containing substituent.