CN102040744A

CN102040744A - Mixed salt flame retardant of phosphoric acid, gluconic acid and melamine and preparation method thereof

Info

Publication number: CN102040744A
Application number: CN 201010583219
Authority: CN
Inventors: 杨冰; 卢献豹; 李凤英; 牟东兰
Original assignee: Sichuan University
Current assignee: Sichuan University
Priority date: 2010-12-10
Filing date: 2010-12-10
Publication date: 2011-05-04
Anticipated expiration: 2030-12-10
Also published as: CN102040744B

Abstract

The invention discloses a method for preparing a mixed salt flame retardant of phosphoric acid, gluconic acid and melamine. The method is characterized by comprising the following steps of: adding 0.4 to 0.9 mole of phosphoric acid and 1.8 to 0.3 mole of gluconic acid in a mixed acid mole charging ratio of 0.222 to 3.00 based on calculated amount and deionized water in an amount which is 4 times the weight of mixed acid into a reactor with heating and stirring, slowly adding the melamine equivalent to the total equivalent weight of the mixed acid with stirring at the temperature of between 75 and 95 DEG C, performing heat insulation reaction for 3 to 6 hours, then stopping heating and stirring, putting the reactant system into a standing tank, cooling to room temperature, standing for 24 hours, separating out mixed salt sediment, and filtering and drying the sediment to obtain the mixed salt flame retardant. The average grain diameter of the mixed salt flame retardant is 10 to 20 microns by milling with a ball mill and grading treatment; when 25 to 45 weight percent of mixed salt flame retardant is added into an epoxy resin system using low molecular weight polyamide as a curing agent, the mixed salt flame retardant reaches V-1 to V-0 level by UL-94 measurement; the raw materials have wide source and are cheap; the operation is easy; the mixed salt preparation reaction is performed in an aqueous system; and the wastewater reaches pollution-free discharge after acid and alkali neutralizing treatment, so the method is environmentally-friendly.

Description

Phosphoric acid and gluconic acid and trimeric cyanamide mixed salt fire retardant and preparation method thereof

Technical field:

The present invention relates to a kind of phosphoric acid and gluconic acid and trimeric cyanamide mixed salt and preparation method thereof, belong to macromolecular material flame-retarded technology field.

Background technology

The epoxy resin macromolecular material has excellent physical and mechanical properties and performances such as heat-resisting, weather-proof, corrosion-resistant and insulation, thereby is widely used in various fields such as mechanical engineering, construction work, electric, shipping vehicles.Yet Resins, epoxy is again easy incendiary material, mostly relates to the fire-retardant requirement to material in numerous engineerings are used.Therefore, when using as engineering plastics, Resins, epoxy must pass through fire-retardant finish.

Have the fire-retardant and halogen-free flameproof two big classes of halogen fire-retardant roughly being divided into of macromolecular material.There is the time of the fire-retardant development of halogen longer, the application maturation of related products, relevant document is also very many.Its principal character by add the halogen-containing organic compound of some amount (also adding other synergy materials sometimes simultaneously) in macromolecular material, is perhaps introduced halogen-containing structure exactly in polymer, make material obtain flame retardant resistance.With regard to Resins, epoxy, can when resin is synthetic, replace common dihydroxyphenyl propane by the Halogen dihydroxyphenyl propane, perhaps adopt halogen-containing anhydride curing agent to replace measure such as common acid anhydride curing agents to reach fire-retardant purpose.Although halogen-containing fire retardant or the flame-retarded technology technology maturation in the numerous macromolecular materials that comprise Resins, epoxy are fire-retardant is respond well, be based on following reason, there is the halogen flame-retarded technology to face industry more and more intensive query and blame in recent years.

1) adds halogen-containing flame retardant or macromolecular material in the macromolecular material and comprised organic halogen structure, when fire takes place, material thermolysis meeting discharges a large amount of smog, wherein comprises poisonous and hazardous hydrogen halide, to the fire-fighting field staff sue and labour and work such as withdraw causes difficulty.

2) no matter the macromolecular material of halogen-containing based flame retardant is in follow-up recycling process or be mixed in the rubbish via burning disposal, all can produce dioxin, and thus environment be polluted.Dioxin has been proved to be the intensive carcinogenic substance to Er.

Therefore, making great efforts not halogen-containing fire retardant of development and correlation technique, is people in the industry's responsibility, also is the only way of fire-retardant science.

Halogen-free flameproof is having halogen to grow up gradually after fire-retardant, and this class technology adopts not halogen-containing fire retardant, and addition is general more than halogen fire retardant is arranged.The macromolecular material of halogen-free flameproof just can not cause the fire-retardant such problem of halogen.Generally speaking, different macromolecular materials, its fire-retardant scheme is different.Specific to the halogen-free flameproof of Resins, epoxy, mainly be to realize at present by in epoxy-resin systems, introducing the organophosphorus structure.As, (DOPO), its structural formula is to introduce " 9, the 10-dihydro-9-oxy is mixed-10-phospho hetero phenanthrene-10-oxide compound " by chemical reaction in the Resins, epoxy molecular structure:

(structure of DOPO)

Chinese patent CN01802749.0, CN02146356.5, U.S. Pat 2010/0130698A1, documents such as " thermosetting resin, 2008,23 (6) " is reported this type of technology.Phosphorous organic structure such as the DOPO formation compact carbon layer of can dewatering rapidly under combustion conditions effectively delays and stops the burning of resin.In view of the reliability and the validity of this type of technology, in recent years, development contains the Resins, epoxy or the solidifying agent of DOPO structure, becomes an emphasis direction of Resins, epoxy Non-halogen Flame Retardant Technology.

Yet it is very easy to introduce DOPO organophosphorus structure in the macromolecular chain of Resins, epoxy.At first, DOPO is got through polystep reaction by rare and expensive orthoxenol and phosphorus trichloride, and the technological operation more complicated also relates to the discharging of a large amount of corrodibility hydrogen chloride gas and the problem of processing therebetween; Secondly, DOPO also must combine with suitable conversion linking group, as with additions such as para benzoquinone or unsaturated polyprotonic acid, acquisition contains the diphenol or the diprotic acid of DOPO structure, last these materials curing reaction synthetic by participation Resins, epoxy or the participation resin is attached in the middle of the resin system, to reach fire-retardant purpose.This shows, be attached to the such organophosphorus structure of DOPO in the Resins, epoxy Polymer Systems that need to experience a plurality of complicated operations processes through the multistep chemical reaction, the required Financial cost of paying is very high therebetween.

Summary of the invention

The objective of the invention is provides mixed salt of a class phosphoric acid and gluconic acid and trimeric cyanamide and its production and use at the deficiencies in the prior art, be characterized in that the mixed acid and the trimeric cyanamide that form by phosphoric acid and gluconic acid react, and prepare and contain phosphoric, nitrogen element and polyhydric mixed salt in the molecular structure simultaneously.This compounds added to suitable proportion have good flame-retardant effect in the Resins, epoxy.The preparation feedback of this class mixed salt carries out in water-based system, and raw material is easy to get, and cost is low, simple to operate, safety, and do not have the discharging of corrodibility hydrogen chloride gas, environmentally friendly.

Purpose of the present invention is realized that by following technical measures wherein said raw material umber is molfraction except that specified otherwise.

The reaction formula of phosphoric acid and gluconic acid and trimeric cyanamide generation mixed salt fire retardant is as follows:

xH ₃PO ₄+yHOCH ₂(CHOH) ₄COOH+C ₃N ₆H ₆→

〔(H ₃PO ₄) _x[HOCH ₂(CHOH) ₄COOH] _y〕.[C ₃N ₆H ₆]

More than in the reaction, the common trimeric cyanamide generation acid-base neutralisation with alkalescence of phosphoric acid and gluconic acid reacts, and forms mixed salt.In order to obtain neutral mixed salt product, when raw material fed intake, the total yield of nitration mixture (phosphoric acid and gluconic acid) should equate with the equivalent of trimeric cyanamide.According to top reaction formula, if the mole charging capacity of trimeric cyanamide is m, then the mole charging capacity of phosphoric acid is xm, and the mole charging capacity of gluconic acid is ym (m, x and y are positive number); Therefore, if determined trimeric cyanamide mole charging capacity in advance, then, can calculate the batch charging coefficient x and the y of phosphoric acid and gluconic acid, thereby determine that mixed salt prepares needed phosphoric acid and gluconic acid mole charging capacity according to above reaction formula corresponding to any nitration mixture molar feed ratio x/y.But, although according to nitration mixture arbitrarily than all making corresponding mixed salt, only the mixed salt product for preparing in than scope at suitable nitration mixture just has the desired phosphorus of fire retardant, nitrogen, hydroxy radical content and ratio.The suitable nitration mixture mol ratio x/y of the present invention is 0.222～3.00.

The starting raw material of phosphoric acid and gluconic acid and trimeric cyanamide mixed salt fire retardant is made up of following, counts by the mole umber:

0.4～0.9 mole of phosphoric acid

1.8～0.3 moles of gluconic acids

1 mole of trimeric cyanamide

The preparation method of phosphoric acid and gluconic acid and trimeric cyanamide mixed salt fire retardant may further comprise the steps:

(1) preparation of phosphoric acid and gluconic acid and trimeric cyanamide mixed salt fire retardant

By 0.222～3.00 nitration mixture molar feed ratio deionized water with 4 times of 0.4～0.9 mole of the phosphoric acid of calculated amount and 1.80～0.3 moles of gluconic acids and nitration mixture weight, add in the reactor that has heating and stir, in 75～95 ℃ of temperature, 1 mole of the trimeric cyanamide that under agitation slow adding equates with the nitration mixture total yield, insulation reaction 3～6h.Stop heating then and stir, reactant system is put into left standstill groove, be chilled to room temperature, leave standstill 24h, separate out the mixed salt precipitation, after filtration, drying, obtain the mixed salt fire retardant.

(2) the mixed salt fire retardant is to the fire-retardant finish of Resins, epoxy

Make the mixed salt fire retardant more than inciting somebody to action, it is 10～20 μ m that process ball mill grinding and stage treatment make its median size, adding to the low molecular polyamides with 0～45wt% is in the epoxy-resin systems of solidifying agent again, the weight ratio of Resins, epoxy and solidifying agent is 100: 50～100, stir at temperature 40-50 ℃, again the mixture melt is poured in the dull and stereotyped test piece mould, solidify 1h in 100 ℃ of reactions of temperature, place 48h in room temperature again, obtain dull and stereotyped test piece.

Performance test:

Test piece is cut into the standard batten, press the material vertical combustion method of UL-94 standard code, flame retardant performance of the present invention is tested, see for details shown in table 1～3.The result shows that phosphoric acid that the present invention makes and gluconic acid and trimeric cyanamide mixed salt fire retardant are used for the fire-retardant of Resins, epoxy, and addition is in 25～45wt% scope, and the UL-94 test can reach V-1 level even V-0 level.

The present invention has following advantage:

1. the fire retardant raw material is inexpensive, wide material sources;

2. the mixed salt preparation feedback carries out in water-based system, processing ease; The acid-base neutralisation that waste water passes through reaches nuisanceless discharging after handling, and is environmentally friendly.

Embodiment

Below by embodiment the present invention is carried out concrete description; be necessary to be pointed out that at this present embodiment only is used for further specifying that the present invention carries out; can not be interpreted as limiting the scope of the invention, the person skilled in art can make some nonessential improvement and adjustment according to the content of foregoing invention.

Embodiment 1

(1) preparation of phosphoric acid and gluconic acid and trimeric cyanamide mixed salt

Press nitration mixture feed ratio 0.222 with phosphatase 24 6.1g (concentration 85%, totally 0.4 mole), gluconic acid 353.1g (1.8 moles), deionized water 1596g, adding has in the reactor of agitator and thermometer, to 75 ℃ of temperature, keeps this temperature, under agitation begin slowly to add trimeric cyanamide 126.2g (1 mole), adition process is 0.5h.Trimeric cyanamide is reinforced to finish, and keeps this temperature 5.5h again.Stop heating and stirring, reaction system is transferred to and leaves standstill groove, is chilled to room temperature, leaves standstill 24h, separates out the product precipitation, and after filtration, drying obtains mixed salt fire retardant 445g.

By ball mill grinding, making its median size is 10 μ m with above-mentioned gained mixed salt solid.E-44 type Resins, epoxy and low molecular polyamides solidifying agent are mixed by 100: 50 weight ratio, join above-mentioned obtained flame-retardant agent powder in the mixture of Resins, epoxy and solidifying agent by 0～45wt% again, stir rapidly at 40-50 ℃, be poured in the dull and stereotyped test piece mould with being about to the mixture melt, solidify 1h in 100 ℃ of reactions of temperature, place 48h in room temperature again, obtain dull and stereotyped test piece.Then test piece is cut into the standard batten, and carry out the material vertical combustion by the UL-94 standard and measure.The result is detailed to be shown in Table 1.

Embodiment 2

Press nitration mixture feed ratio 0.777 with phosphoric acid 80.7g (concentration 85%, totally 0.7 mole), gluconic acid 176.5g (0.9 mole), deionized water 1030g, adding has in the reactor of agitator and thermometer, to 85 ℃ of temperature, keeps this temperature, stir the slow down trimeric cyanamide 126.2g (1 mole) of adding, adition process is 0.5h.Trimeric cyanamide is reinforced to finish, and keeps this temperature 3.5h again.At last, stop heating and stirring, reaction system is transferred to and leaves standstill groove, is chilled to room temperature, leaves standstill 24h, separates out the product precipitation, and after filtration, drying obtains mixed salt fire retardant 315g.

By ball mill grinding, making its median size is 15 μ m with above-mentioned gained mixed salt solid.E-44 type Resins, epoxy and low molecular polyamides solidifying agent are mixed by 100: 75 part by weight, again above-mentioned obtained flame-retardant agent powder is joined in the mixture of Resins, epoxy and solidifying agent by 0～45% weight proportion, stir rapidly at temperature 40-50 ℃, the mixture melt is poured in the dull and stereotyped test piece mould, solidify 1h 100 ℃ of reactions, place 48h in room temperature again, obtain dull and stereotyped test piece.Then test piece is cut into the standard batten, and carry out the material vertical combustion by the UL-94 standard and measure.The result is detailed to be shown in Table 2.

Embodiment 3

Press nitration mixture feed ratio 3.00 with phosphatase 11 03.8g (concentration 85%, totally 0.9 mole), gluconic acid 58.8g (0.3 mole), distilled water 652g, adding has in the reactor of agitator and thermometer, to 95 ℃ of temperature, keeps this temperature, under agitation slowly add trimeric cyanamide 126.2g (1 mole), adition process is 0.5h.Trimeric cyanamide is reinforced to finish, and keeps this temperature 2.5h again.At last, stop heating and stirring, reaction system is transferred to and leaves standstill groove, is chilled to room temperature, leaves standstill 24h, separates out product, and after filtration, drying obtains mixed salt fire retardant 234g.

By ball mill grinding, making its median size is 20 μ m with above-mentioned gained mixed salt solid.E-44 type Resins, epoxy and the low molecular polyamides solidifying agent part by weight by 100: 100 is mixed, again above-mentioned obtained flame-retardant agent powder is joined in the mixture of Resins, epoxy and solidifying agent by 0～35% weight proportion, stir rapidly at temperature 40-50 ℃, be poured in the dull and stereotyped test piece mould with being about to the mixture melt, solidify 1h in 100 ℃ of reactions of temperature, place 48h in room temperature again, obtain dull and stereotyped test piece.Then test piece is cut into the standard batten, and carry out the material vertical combustion by the UL-94 standard and measure.The result is detailed to be shown in Table 3.

The fire-retardant situation of table 1 fire retardant of the present invention in Resins, epoxy

The fire-retardant situation of table 2 fire retardant of the present invention in Resins, epoxy

The fire-retardant situation of table 3 fire retardant of the present invention in Resins, epoxy

Claims

1. phosphoric acid and gluconic acid and trimeric cyanamide mixed salt fire retardant is characterized in that the chemical equation of this fire retardant is:

xH ₃PO ₄+yHOCH ₂(CHOH) ₄COOH+C ₃N ₆H ₆→

〔(H ₃PO ₄) _x[HOCH ₂(CHOH) ₄COOH] _y〕.[C ₃N ₆H ₆]

Wherein, the mol ratio x/y=0.222 of nitration mixture～3.00.

2. phosphoric acid and gluconic acid and trimeric cyanamide mixed salt fire retardant according to claim 1 is characterized in that the starting raw material of this fire retardant is composed of the following components, count by the mole umber:

0.4～0.9 mole of phosphoric acid

1.8～0.3 moles of gluconic acids

1 mole of trimeric cyanamide.

3. the mixed salt fire retardant preparation method of phosphoric acid and gluconic acid and trimeric cyanamide as claimed in claim 1 or 2 is characterized in that this method may further comprise the steps:

By 0.222～3.00 nitration mixture molar feed ratio deionized water with 4 times of 0.4～0.9 mole of the phosphoric acid of calculated amount and 1.8～0.3 moles of gluconic acids and nitration mixture weight, add in the reactor that has heating and stir, in 75～95 ℃ of temperature, under agitation slowly add the trimeric cyanamide that equates with the nitration mixture total yield, insulation reaction 3～6h, stop heating and stirring then, reactant system put into leave standstill groove, be chilled to room temperature, leave standstill 24h, separate out mixed salt precipitation, after filtration, drying, obtain the mixed salt fire retardant;

With above-mentioned mixed salt fire retardant, it is 10～20 μ m that process ball mill grinding and stage treatment make its median size, adding to the low molecular polyamides with 0～45Wt% is in the epoxy-resin systems of solidifying agent, the weight ratio of Resins, epoxy and solidifying agent is 100: 50～100, stir at temperature 40-50 ℃, the mixture melt is poured in the dull and stereotyped test piece mould again, solidify 1h in 100 ℃ of reactions of temperature, place 48h in room temperature again, obtain dull and stereotyped test piece, then test piece is cut into the standard batten, and carry out the material vertical combustion by the UL-94 standard and measure.

4. the purposes of phosphoric acid and gluconic acid and trimeric cyanamide mixed salt fire retardant according to claim 1 is characterized in that this mixed salt fire retardant is used for ethoxyline resin antiflaming.