IL30659A - 2-bis(diesters of phosphonomethyl)amino-1,3-dihydroxy propanes and their preparation - Google Patents

Description

I n jam 3lt£22s_I222221I!lIl2_il 2 - bis(diesters of phoephonoaiethyl) amino 1, 3-dihydroxy propanes and their preparation STAUFPER CHEMICAL COMPANY C, 28894 la The present invention lelates to novel compounds of the formula wherein R^, R2t R^ and R^ are each independently alkyl, haloalkyl, alkoxyalkyl, polyalkoxyalkyl, hydroxyalkyl, hydroxyalkoxyalkyl, hydroxypolyalkoxyalkyl or allyl radicals or phenyl, naphthyl, benzyl and nuclearly halo-substituted derivatives thereof; and Ri_, Rg, are each independently hydrogen, alkyl, alkoxyalkyl or phenyl, naphthyl, benzyl and nuclearly halo-substituted derivatives thereof; and R^ may also be cyclo-alkyl. 30659/2 The present invention also relates to a method of preparing the compounds of the present invention which compounds are characterized by acid numbers in isopropanol . of below about 10.0 mg. OH/gram of sample.

In the polyurethane field, increased interest is being shown in compounds which can be added to the polyurethane polymer to act as fire-retardant agents. Particular interest is being shown in compounds which have functional groups reactive, with the polyol or the polyisocyanate used in preparing the. poly urethane so that the fire-retardant agent can be chemically incorporated into the polyurethane. One such group of compounds of this. type are the phosphorus containing fire-retardant agents j such as the. hydroxyalkylaminoalkylphosphonates as, set forth in the U.S. patent to Beck et al . , 3, j6} 010 issued January 2$, I963. Within this group of phosphorus containing fire-retardant agents , it is known that the amount of phosphorus in the compound has some correlation to the effectiveness of the compound as a fire-retardant agent. It is known that a more effective fire-retardant agent can' be obtained by increas- ing the phosphorus content of the compound without effecting a large increase in the molecular weight thereof.

It is also known that phosphonate fire-retardant agents of the type disclosed in Beck et al. when in substantially pure form can be easily incorporated into the polyure-thane polymerization system. However^ some of the commercial methods of preparing this type of compound provide a final product which is high in acid content as shown by acid numbers ranging from 12 mg. KOH/gram to as high as 20 mg. KOH/gram of sample. This acid content can be extremely detrimental to certain catalyst systems used in the formation of polyurethane polymers. These certain catalysts are amine compounds which are basic and which are neutralized by acid thereby destroying their catalytic activity. Because of the expense of these amine compounds j any such destruction of catalytic activity by another additive in the reaction mixture used to form the polyurethane polymer is economically undesirable.

It has now been found that new compounds providing an increased phosphorus content without substantially increasing the molecular weight can be provided. It has also been found that these compounds can be easily prepared in substantially quantitative yields with acid levels sufficiently low so as not to interfere with the catalytic activity of the amine catalyst systems used in the formation of polyurethane polymers.

The new compounds of this invention can be represented by the formula: HO C C C OH R^ ' 0 - R3 I ^ P C N C R20^ " / \ / \ " 0 - R4 0 R5 Re Rs e 0 wherein the R substituents are the same as given hereinbefore. Preferably, R5 is hydrogen, and most preferably, R5, R6, R7, R3, R10 and Rx j are hydrogen, and Rg is alkyl.

These new compounds can be made by reacting a l-aza-J, 7-dioxa-bicyclo (3:3:0) octane derivative of the formula: with phosphonic acid diesters of the formulas: 0 0 the R substituents of the reactants being the same as given above for the prepared compound.

Preferably, the above reaction is conducted while main taining the amount of available free-water present during the re action to less than 0.75 mole water per mole of phosphonate re-actant used. By maintaining the water content at this low level, the reaction yields a product of very low acid content, which co tent is sufficiently low so as not to interfere with the cataly- tion of polyurethane polymers.

As used herein, the term phosphonate is intended to cover esters of a pentavalent phosphorus acid of the structure: 0 HO " IV ^ P - H HO^ The term phosphonic acid as used herein is intended to include acids of phosphorus which are trivalent in the pure acid form but pentavalent when esterified, e.g., phosphorous acid. Further, the term phosphonate in reference to the diesters is intended to be synonymous with the term diester phosphites as used in the prior art to describe the compounds of Formula III.

The l-aza-3, 7-dioxa-bicyclo ( 3 : ~5 i O ) octanes of Formula II are known compounds and can be easily prepared by known methods. Illustrative of these methods is the reaction of an aldehyde or ketone with a 2-amino 1, ^-propanediol . The chemistry of this reaction proceeds according to the following equation: R-5 e Rs Re \ / 0 I! V VI II The reaction can be conducted in bulk or in an inert solvent, such as heptane, tetralin, benzene, xylene or toluene, adapted amy! methyl ketone, diisoamyl ketone, and the like.

The terms aldehyde and ketone are intended to include com< pounds which form aldehydes or ketones under the conditions of reaction, such as paraformaldehyde which is a preferred reactant. Other compounds suc as acetals,and ketals, illustrated by dibutyl diethyl ketal can also be used. The foregoing are given as illustrative and are in no way intended to be inclusive of all carbonyl compounds which are useable in the present invention.

Illustrative of the 2-amino-l,3-propanediols which can be used to form the compounds of the present invention are: 2-Amino-l, 3rpropanediol 2-Amino-2-methy1-1, 3-propanediol 2-Amino-l,3-diethyl-l, 3-propanediol 2-Amino-3-propyl-l, 3-propanediol 2-Amino-3-isopropyl-l, 3-propanediol 2-Amino-l-p-chlorophenyl-l, 3-propanediol and the like. The term. 2-amino-l,3-propanedio4. is intended to Include all compounds of the formula 71 above wherein the substituents Ry to have the same meaning as in formula I above · The above compounds are gisen as illustrative of the numerous monoamino compounds which fall within this description and are in no way intended to be entirely inclusive of all such compounds., 30659/2 8 Illustrative examples of the l-aza-3,7-dioxa-bicyclo (3:3:0) octanes which can be used in the present invention are: 2j8-diethyl derivative , 5-dimethyl-2-propyl derivative , 5-diethyl-2,6,8 trimethyl derivative . k, 5-dime hyl derivative , 6-trimethyl derivative - 4, 5-diphenyl derivative and the like. The haloalkyl group can be illustrated by chloroethyl, bromoethyl and the like. Examples of the hydroxy-alkyl groups are hydroxyethyl, hydroxypropyl and the like. Hy-droxyalkyl is intended to include hydroxyalkoxyalkyl groups, such as hydroxyethoxyethyl, and polymeric forms thereof corresponding to the formula HORxO( RyO)n- wherein Rx, Ry and n are the Same aS above. naphthyl and derivatives thereof. These aforegoing examples are given as illustrative of the numerous substituents which are intended to be included within the scope of the definition of the phosphonate reactant.

Representative examples of the diesters of phosphonic acid, e.g., diester p.hosphonates which are useable in the process of the present invention are; dimethyl phosphonate, diethyl phosphonate, diisopropyl phosphonate, dibutyl phosphonate, di-hexyl phosphonate, dioctyl phosphonate, bis(2-hydroxyethyl)phos-phonate, dihydroxypropyl phosphonate, dichloroethyl phosphonate, dibromoethyl phosphonate, dimethoxyethy1 phosphonate, diallyl phosphonate, dibenzyl phosphonate, diphenyl phosphonate, and the like; ethyl methyl phosphonate, ethyl chloromethyl phosphonate, methyl benzyl phosphonate and the like . These materials are given as illustrative and are in no way inclusive of all the possible diesters of phosphonic acid which are useable to form the desired diphosphonates in accordance with the present invention.

It is preferred that the aforementioned diesters of materials, while operable in the invention, contain some impurities which can increase the acid content of the final product to a slight degree,, As the desired goal is diphosphonate with as low an acid number as possible, the elimination of any impurities which contribute in a small way to the acid content can allow for the preparation of a final product having a lower acid number.

The reaction between the l-aza-3, 7-dioxa-bicyclo (3:3:0) octane and the diester of phosphonic acid is preferably conducted under substantially anhydrous conditions. While a small quantity of free available moisture of up to 0.75 mole water per mole of phosphonate used as reactant can be tolerated, it is undesirable in that increasing amounts of moisture contribute to increased acid values in the final product. Therefore, it is' preferred to conduct the reaction between the l-aza-3j,7-dioxa-bicyclo (j5 3sO) octane and the phosphonate in the presence of less than about 0.25 mole water per mole of phosphonate reactant, and. most preferably in the total absence of free available moisture, e.g., use of completely anhydrous reaction conditions. By the term free available moisture or water is meant water which is not physically or chemically bound to such an extent so as to be unavailable for chemical reaction. Thus, and to effect this preferred end, the reactants are preferably completely anhydrous prior to reaction. This can be accomplished by any known means of removing moisture from a chemical compound. l-aza- ,7-dioxa-bicyclo ( '· ° ) octanes have a known l-aza-3j7-dioxa-bicyclo :>:O) octanes should* be dried and used as soon as possible after drying or- stored under substantially anhydrous conditions . . < The reaction can be conducted as a batch or continuous type reaction. Any equipment which can maintain the substantially anhydrous conditions required for the reaction can be used. The equipment need only have the' usual temperature control devices s ch as heating and cooling coils. The equipment is not critical and adaptation of existing equipment to allow performance of the method of the present invention is within the purview of the skilled artisan.

The compounds of the present invention can. also be prepared by a continuous process which includes the reaction of a carbonyl compound with a 2-amino-lj5 propanediol followed by reacting the resulting material with a diester phosphonate, preferably in the presence of less than 0.75 mole water per mole of phosphonate reactant used. The water of reaction which is formed in the reaction of the carbonyl compound and the 2-amino- 1,3 propanediol can be easily removed by distilling the reaction product using an azeotropic solvent such as benzene, xylene or toluene. Water of solution can also be removed in this manner. Other means of isolating the free water such as by the use of desiccating agents such as anhydrous calcium sulfate, and the like can also be used. The essential step of this reaction is that substantially all water of reaction or solution be removed from the reaction mixture or chemically or physically isolated into a non-reactive state prior to the addition of the diester of phosphonic acid to the reaction mixture. Any known means of effecting this end can be used. It is preferred to strip all water from the system using an azeotropic solvent distillation system followed by removal of the azeotropic solvent. However, any solvent or other impurity, such as a desiccating agent, which does not affect the overall reaction can remain in the reaction mixture.

The rate of reaction between the l-aza-3,7-dioxa-bi-cyclo (3:3:0) octane and the phosphonic acid diester is temperature dependent in that the reaction proceeds at a greater rate as the temperature increases. Temperatures substantially above 110° C. should be avoided as they tend to degrade the 1-aza re-actant.

The rate of reaction between the carbonyl compound and the 2-amino-l,3 propanediol is fairly rapid and excessive reaction conditions are not necessary to induce the reaction. Temperatures substantially above 110° C. should be avoided as the tend to de rade the reaction roduct. Preferabl tem- peratures within the range of about 25° C. to about 100° C. are used especially when using paraformaldehyde as the carbonyl compound.

In utilizing complex ketones and/or complex 2-amino-l 5 propanediols, it may be desirable to include a slight trace of catalytic material in the reaction mixture to increase the rate of reaction. Illustrative of catalytic materials which can be used are iodine, hydrochloric acid, acetic acid, and po- I tassium cyanide. Preferably, the use of such catalytic mater- t ials is avoided as they introduce added impurities in the reaction system and, in the case of the acid catalysts, can add slightly to the acid number.

Representative examples of diphosphonates included within the scope of the present invention are; (1) 2-bis( dimethyl phosphonomethyl)amino 1, J-dihydroxy propane (2) 2-bis( diethyl phosphonomethyl)amino 2-methyl 1,5- dihydroxy propane (3) 2-bis( diethyl phosphonomethyl) amino 2-ethyl 1,5- dihydroxy propane ( ) bis(dipropyl 1-phosphonopropyl ) dimethylolmethy1 amine (5) (ethyl methyl 1-phosphonobutyl )( ethyl methyl phosphonomethyl) 1-methyl, 1-methylol, 2-hydroxypropyl amine (6) 5-bis(diethyl 1-phosphonoethyl )amino 2, ^-dihydroxy, -ethyl hexane (7) 2-bis( dibenzyl phosphonomethyl)amino 1, 5_dihydroxy, 2-methyl butane (8) 2-bis( di-tert-butyl phosphonomethyl )amino 1,5-dihy- droxy, 2,5-diphenyl propane V (10) (diethyl phosphonomethyl) (dimethyl phosphono- methyl) dimethylolmethy1 amine (11) 2-bis( diphenyl phosphonomethyl)amino 1, 3-dihydroxy propane These are given as illustrative and are in no way intended to be inclusive of all the diphosphonates which are included within the scope of the present invention.

The compounds of the present invention can be used as effective flame retardant compounds for polyurethane polymers. Due to the presence of reactant hydroxy functionality, the compounds can be copolymerized with polyisocyanates so as to chemically incorporate the compounds into the polymer chain. The compounds of the present invention can also be used as surfactants .

The invention is illustrated in the examples which follow: • EXAMPLE 1 Preparation of 5-meth.yl-l-aza-3,7-dioxa-bicyclo (3:3:0) octane: In a one liter flask equipped with stirrer, thermometer, reflux condenser and Barrett trap are placed 105 grams (1 mole) of 2-amino-2-methyl-l, ^"propanediol, 66.6 grams of paraformaldehyde (2.08 moles) and 300 milliliters of benzene. Sufficient additional benzene is added to fill the Barrett trap. The reaction mixture is stirred and heated to reflux until no more water collects in the trap. The product is recovered after stripping off the benzene in a 12 inch Vigreaux. t; Preparation of 2-bis( diethyl phosphonomethy1 )amino 2--methyl 1,3 dihydroxy propane: 64.5. grams (0.5 mole) of anhydrous 5-methyl- l-aza-3, 7-dioxa-bicyclo (3:3:0) octane are placed in a stoppered reaction vessel equipped with a stirrer, dropping funnel and heating mantle and the contents are heated to 60° C. with stirring. 1 8 grams (1 mole) of diethyl phosphonate is placed in the dropping funnel and incrementally added to the heated 5-methyl-l-aza-3,7-dioxa-bicyclo (3s3:0) octane at such a rate that the temperature is maintained below about 70° C.

The reaction is slightly exothermic and moderate external cold water cooling is used to maintain the reaction temperature at about 70° Co When the addition of the diethyl phosphonate is complete, the reaction mixture is stirred at 70° C. for an additional 90 minutes. The product, 2-bis(diethyl phosphono-methyl)amino 2-meth l 1 3-dihydroxy propane, is then recovered.

EXAMPLES 2 - 11 The following compounds are prepared by reacting the listed reactants using the reaction procedure of Example 1: Example 2: 2-bis ( dimethyl phosphonomethyl)amino 1,3- dihydroxy propane using l-aza-3,7-dioxa- bicyclo (3.3:0) octane and dimethyl phosphonate ; Example 3 2-bis( diethyl phosphonomethyl)amino 2-ethyl 1, 3-dihydroxy propane using 5-ethyl-l-aza-3, 7-dioxa-bicyclo (3:3:0) octane and diethyl Example 4 bis (dipropyl 1-phosphonopropyl) dimethylol- methyl amine using 2, 8-diethyl-l-aza-3, 7~ dioxa-bicyclo (3:3»0) octane and dipropyl phosphonate ; Example 5 (ethyl methyl 1-phosphonobutyl ) (ethyl methyl phosphonomethyl) 1-methyl, 1-me hylol, 2-hydroxypropyl amine using 2-propyl-4, 5- dimethyl-l-aza-3,7-dioxa-bicyclo (3:3:0) octane and methyl ethyl phosphonate; Example 6 : 3-bis( diethyl 1-phosphonoethyl )amino 1,3- dihydroxy, 2-ethyl hexane using 2,6,8-tri- methy1-4,5-diethy1-l-aza-3,7-dioxa-bicyclo (3:3:0) octane and diethyl phosphonate; Example 7 2-bis( dibenzyl phosphonomethyl)amino 1,3- dihydroxy, 2-methyl butane using 4,5 dimethyl- 1-aza-3i 7-dioxa-bicyclo (3:3:0) octane and dibenzyl phosphonate ; Example 8 2-bis(di-tert . butyl phosphonomethyl) amino 1, 3-dihydroxy, 2,3-diphenyl propane using 4,5 diphenyl-l-aza-3, 7-dioxa-bicyclo (3:3:0) octane and di-tert. butyl phosphonate; Example 3-bis( didodecyl phosphonomethyl)amino 2,4- dihydroxy, 3-methyl pentane using 4,5j6-tri- methyl-l-aza-3,7-dioxa-bicyclo (3:3:0) octane and didodecyl phosphonate; Example 10; ' 2-bis(diphsriyl phosphonoinothyl)amino 1,3-dihydroxy propane using l-asa-3»7-dioxa-bicyclo (3:3:0) octane ■ and diphenyl phosphonato ; phosphonomethyl Example 11: 2-bis(dimethoxyet y]/aaino-l,3-dihydroxypropane using l-aza-5»7-dioxa-bicyclo (3:3:0) octane and- _dimothoxy- • ethyl phospliona e ; Example 12: 2-bis(dietho:3-dihydroxy- propane ucing l-asa-3*7-dioxa-bicyclo (3:3:0). octane and .d-iethoxyethyl phonphonato; Example 13 : .2-bie(di¾Iiloroetiylph03phonomethyl)nmino-l,3-dihy.droj:y- propane us ng l-as_a~3>7-dioxa-bicyclo (3:3:0) octane .· and di-chloroethyl phosphonato; . .' '.· * · Example 14' : 2-bia (di-bromoethyiphosphonoraothyl)araino-1,3-dihydroxy- propane using l-asa-3,7-dioxa-bicyclo (3:3:0) octano ,. and di-bromoet.byl phosphonato ; Example 15 : 2-bis (dihydroxyctliylp osnhonomethyl)amino-1,3-dihydroxy- .· propane using l-az,.a-3,7-dioxa-bicycio (3:3:0) ootano and dihydro yethyl phosphoha e- ; .

. Example 16' :' 2-bis (dihydroxypropylphoGp onoraethyl)amino-1,3-dihydroxy propane using l-a3a-5,7~dioxa-bicyclo (3:3:0) octane and dihydroxypropyl phosphonato ; , 30659/2 Example 18: 2-bis(dihydroxyethoxyethylphosphonomethyl)amino- 1,3-dihydroxypropane using l-aza-3>7-dioxa- bicyclo (3:3:0) octane and dihydroxyethoxyethyl phosphonate; .

Example 19: 2-bis(diallylphosphonoraethyl)amino-l,3-dihydroxy- propane using l-aza-3,7-dioxa-bicyclo (3:3:0) octane and diallyl;. phosphonate.

The foregoing examples are given as illustrative of compounds falling within the scope of Formula I. Numerous other compounds falling within the scope of Formula I can be similarly prepared using the aforedescribed methods by the use of various other carbonyl compounds falling within the scope of Formula IV, by the use of various other 2- amino-1, 3-propanediols falling within the scope of Formula VI, and by the use of various other phosphonates falling within the scope of Formula III.. By the use of the preferred method set forth herein, compounds can be prepared which are characterized as having acid numbers in isopropanol of below 10 mg. KOH/gram of sample.

Thus, and in accordance with the present invention there is provided a new group of. polyphosphonates which can be used as fire-retardant agents for polyurethane resins, and also a propitious method for preparing' these compounds so as to obtain products characterized by acid numbers of below 10 mg

Claims (1)

1. 30659/2 14. A procesB according to Claim 10 wherein R,. and Rg are hydrogen. 15· A process according to Claim 10 wherein R^, R∑, ^ and R^ are alkyl radicals. 16. A process according to Claim 15 wherein said alkyl radicals are ethyl. 17. A process according to Claim 10 wherein the free water content present during the reaction ia maintained at less than 0.75 mole water per mole of phosphonic acid di-ester used as reactant. 18. A process for preparing compounds of the formula I in Claim 1, which comprises reacting a oarbonyl ' compound of the formula: 0 with a 2-amino-l,3-p^opan¾diol of the formula: the molar ratio of carbonyl compound to propanediol being at least 2:1 followed by reacting the aforeprepared reaction product with pho as: the R substituents of the reactants having the same meaning as in Claim 1. 19. A process according to Claim IS wherein R^ is hydrogen. 20; A process according to Claim 18 wherein R,. and Rg are hydrogen. . 21, A process according to Claim 18 wherein Rg is methyl or ethyl. 22'. A process according to Claim 18 wherein R^, g, Rg, are hydrogen. 23. A process according to Claim 22 wherein R^ and g are hydrogen. 24. A process according to Claim 18 wherein R^, g, are alkyl radicals. 25. A process according to Claim 24 wherein said alkyl radicals are ethyl. 26. A process according to Claim 18 wherein the free water content present during the reaction ie maintained at less than 0.75 mole water per mole of phosphonic acid diester used as reactant . For the Applicants KL:BH