CN1007974B - Process for the preparation of a curing component for synthetic resins which contain groups capable of amide formation or ester formation with carboxylic acids - Google Patents
Process for the preparation of a curing component for synthetic resins which contain groups capable of amide formation or ester formation with carboxylic acidsInfo
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- CN1007974B CN1007974B CN 85105226 CN85105226A CN1007974B CN 1007974 B CN1007974 B CN 1007974B CN 85105226 CN85105226 CN 85105226 CN 85105226 A CN85105226 A CN 85105226A CN 1007974 B CN1007974 B CN 1007974B
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Abstract
The present invention relates to a preparation method for solidifying synthetic resin which comprises a base group which can possibly form ester or acid amide in proper conditions. Moreover, the synthetic resin also comprises polymerisable double bonds. The novel solidifying agent can be used for the Michael addition reaction of monocarboxylic acid or dicarboxylic acid capable of carrying out the Michael addition reaction and compound which comprises at least two double bonds capable of carrying out the Michael addition reaction. According to a reaction ratio of the two groups of the components, the Michael addition reaction must comprise at least one ester group which can generate ester transfer and/or amide transfer and at least one polymerisable double bond.
Description
Existing patent application P3,315,469,4 relate to the curable synthetic resin agent, and this synthetic resins is meant and contains the resin that can generate acid amides with carboxylic acid reaction or generate the group of ester.These solidifying agent are adducts that monocarboxylic ester or dicarboxylic esters and the compound that contains at least one two key carry out Michael (Michael) addition reaction, these monocarboxylic ester, dicarboxylic esters and to contain double bond compound all be the compound that can carry out Michael addition, on average, have two ester groups that can play transesterify or acid amides transfer (transamidat ion) reaction in each molecule of curing component at least.
The characteristics of this class solidifying agent are, they can play crosslinking reaction with the synthetic resins that can become ester or one-tenth acid amides down for about 160 ℃ at relatively lower temp, and consequent split product environmental pollution is very little, in the time of particularly playing the contained alkoxide component of ester that transesterify or acid amides shift and be lower alcohol, for example ethanol pollutes littler.
Solidify the division loss and can keep same degree of crosslinking if can further reduce paint film, then have bigger benefit, its objective is that at first more little to ambient air contamination, secondly, used material can farthest remain in the paint film.
According to the present invention, containing the curing component that synthetic resins was suitable for that can generate acid amides with carboxylic acid reaction and/or generate the group of ester is the reaction product that monocarboxylic ester or dicarboxylic esters and the compound that contains at least one pair keys carry out Michael reaction, these monocarboxylic ester, dicarboxylic esters, contain double bond compound and all can carry out Michael reaction, on average, each Michael addition adducts molecule contains two keys that can play ester group that transesterify or acid amides shift and at least one can polymerization at least.
The compound that contains two keys that can carry out Michael reaction comprises all α in principle, and β-unsaturated oxygenatedchemicals is as α, beta-unsaturated aldehyde and ketone, the double bond containing compound of preferential the taken place Michael addition that uses of the present invention is α, the ester class of β-unsaturated monocarboxylic acid or di-carboxylic acid, amides and urea derivative, particularly vinylformic acid, methacrylic acid, dimethacrylate, butenoic acid, toxilic acid, the ester of fumaric acid, acid amides and urea derivative.
The present invention's the monocarboxylic ester or the dicarboxylic esters that can carry out Michael reaction comprise malonic ester, acetoacetate, cyan-acetic ester and Bing Tongersuosuan ester also can have alkyl substituent on the sour methylene radical, wherein, cyan-acetic ester has been proved to be optimal solidifying agent.
Can esterification components be advisable with line style or branched-alkyl alcohol, alkanol preferably contains 1 to 8 carbon atom, and good especially is methyl alcohol and ethanol.If an esterification components part is made of branched-alkyl alcohol then has more strong point, 2-Ethylhexyl Alcohol particularly, because in some cases it to hinder formation, methyl ester class and the ethyl ester class baking river in Shangdong Province degree of paint film baking indenture (craters) very low, split product is few and harmless.
Monobasic, the dicarboxylic esters that can carry out Michael reaction carry out Michael reaction with containing two compounds that can carry out the two keys of Michael reaction at least, generate multiple Michael addition thing, they all are suitable for use as the present invention's curing component, the result that the very low unsaturated compound of molecular weight carries out Michael reaction with said monocarboxylic acid or dicarboxylic esters class is that the compound vapour pressure under baking condition that is generated is very low, because this ester class can not be overflowed from curing coating film.Cheering is that the hydrolysis susceptibility of ester also reduces greatly, therefore can be used as the curing component of electrocoating paint aqueous solution system.Another unusual fact is that the present invention's curing component also can carry out crosslinked by two key reactions at a lower temperature.
In an example of the present invention, curing component is to carry out the Michael addition adducts that the monocarboxylic acid of Michael reaction or dicarboxylic esters and α β unsaturated monocarboxylic acid or dicarboxylic esters react, this α β unsaturated monocarboxylic acid ester or dicarboxylic esters are α, and β-unsaturated monocarboxylic acid or di-carboxylic acid and polyvalent alcohol particularly contain the formed ester of polyvalent alcohol of 2 to 4 hydroxyls.
Specifically, the ester of α, beta-unsaturated acid can be by alkane hydroxyl diol ester or two vinylformic acid alkane diol ester or methacrylate alkane diol ester, three vinylformic acid trishydroxymethyl propyl ester, trimethylammonium vinylformic acid trishydroxymethyl propyl ester (trimethylolpropane triacsylates or trimethacry late), choose in penta 4 butanols tetraacrylate or the tetramethyl-acrylate (penta-erythritol tetra crylate or tetramethacrylate), these ester classes are easy to commercialization.
It is following effective especially when bonding to also have one group of curing component to be used for; I.e. bonding with this curing component solidified paint film and steel plate, and be the bonding of curing coating film based on the coating of PVC, this group curing component are the Michael addition adducts that is made of for the substituted ureas class or the urethanes of (I) general formula.
In the formula, each symbolic significance is as follows,
R
M+nBe the basic R(NHCO of (m+n) valency of multi-functional isocyanic ester) m+n
M is an integer, is at least 1,
N is an integer, is at least 1,
A is chemical bond or acid amides alkylidene group, the oxo alkylidene group, and amide group, ring alkylidene group or oxidation ring alkylidene group,
B is acid amides or Sauerstoffatom,
Be α, the acyl group of β unsaturated monocarboxylic acid or dicarboxylic esters, and
M is the ester of monocarboxylic acid or di-carboxylic acid, link on the molecule by Michael reaction, condition is that molecule should contain at least one can carry out the ester group from carboxylicesters (M) reaction generation of Michael addition with at least one by the two keys of polymeric, if A is a chemical bond, then B is an amide group
In the useful modifier of the described curing component of above-mentioned formula I, A is the base of formula II,
In the formula, R
1For containing the alkyl of 9-11 carbon atom, and on carboxylic acid α position side chain is arranged, B is a Sauerstoffatom in the formula I.
It is less that the paint film that contains the compound of the base with formula II forms indenture trend in when baking, and show good erosion resistance.
Or the further useful modifier of (I) curing component in, A for contain at least at linear fraction 5 carbon atoms 1, the 2-dibasic alcohol base of deriving, B is a Sauerstoffatom.Corresponding original chemical
Be to produce like this to be, for example, 1,2-oxidation alkene and α, β-unsaturated monocarboxylic acid or di-carboxylic acid reaction.According to 1, the chain length of 2-dibasic alcohol, when the electrophoretic deposition paint film, this synthesized solidified component paint film has plastification in various degree, consequently can obtain thicker coating, usually, as long as curing component contains some this plasticized compound, just be enough to obtain above-mentioned effect.
If the A in (I) formula has following structure, the curing component that contains this structure also has similar effect.
B is a Sauerstoffatom, and Y is an integer, and with 2 for well, Z is an integer, is 5 at least, corresponding original chemical
Produce as followsly, for example, by α, the hydroxyalkyl acrylate of beta-unsaturated carboxylic acid and lactone carry out addition reaction to be produced, Hydroxyethyl acrylate is that the reaction product of 6-caprolactone is this compounds typical case representative that market can get.
According to the present invention, containing the carboxylic acid glycerine ester that side chain is arranged on 9-11 carbon atom and the α position can produce like this as the curing component that molecule constitutes, use earlier α, β-unsaturated dicarboxylic acid, dibasic alcohol and contain 9-11 carbon atom and on the α position, have the carboxylic acid glycerine ester of side chain to prepare unsaturated and mixed ester, carry out addition reaction with this mixed ester and the monocarboxylic acid or the dicarboxylic esters that can carry out Michael reaction then, level of response is so that still keep polymerisable double bonds and be advisable in the molecule.
The present invention's another kind of curing component comprises the reaction product that the acid amides of the monocarboxylic acid that can carry out Michael reaction or dicarboxylic esters and α β-unsaturated monocarboxylic acid or di-carboxylic acid carries out Michael reaction.The acid amides example is as follows, methylene-bisacrylamide, tolylene bisacrylamide, hexamethylene bisacrylamide, or isophorone diene acid amides.
The present invention's solidifying agent can be used in the two components lacquer with synthetic resins, and this synthetic resins can form acid amides and/or ester with carboxylic acid.The synthetic resins that also contains polymerizable double bond in addition also is suitable for.
Be higher than under the room temperature knownly with curing component solidified synthetic resins of the present invention, their molecular weight about 300 is to about 20,000, and contains the group that can become ester or become acid amides.For example, they be contain hydroxy ester class that component is an alkene class unsaturated acid and or the polymkeric substance of the ethylenically unsaturated monomers of amino ester, as acrylic-amino alkyl esters or acrylic acid hydroxy alkyl ester class, or corresponding methyl acrylic ester.Also have one group to be made of polyaminoamide class thing in addition, polyaminoamide is made by lipid acid and polyamines dimerization, can make amino-polyethers-poly-hydroxy thing by reaction, for example, primary amine and/or secondary amine with from polyphenol with show the Resins, epoxy phase reaction that fontanel is made for alcohol.
The synthetic resins that contains carboxylic acid or amino group usually can be transformed into water miscible by alkali or sour effect, and negative electrode or anode precipitating can take place in this solution, because the present invention's curing component has resistance to hydrolysis, they are particularly suitable for using cationic amino-polyethers-poly-hydroxy thing to give especially good results as the electrophoretic paint component.
The curing that contains the synthetic resins of amino and/or hydroxyl is by carrying out acid amides and shift and/or transesterification reaction being higher than under the room temperature condition ester group of introducing with Michael addition, and by the crosslinked temperature required alkoxide component of finishing that depends on these esters of polymerizable double bond, the alkoxide component molecular weight is low more, required temperature is also low more, the solidification value of resin that contains methyl esters and ethyl ester is low especially, if add the catalyzer that promotes that transesterify or acid amides shift, then solidification value can be reduced to 140 ℃~160 ℃, also can adopt about hot setting below 250 ℃.Suitable catalyzer has: the naphthenate of the octylate of metal salts of organic acids, particularly zinc, lead, iron or chromium or zinc, lead, iron or chromium.These catalyzer have also promoted the crosslinking reaction between contained pair of key of solidifying agent molecule.
Synthetic resins is as follows with the solidifying agent blending ratio: the ratio that can become can carry out in ester and the total mole number that becomes amide group and the solidifying agent total mole number of group that transesterify or acid amides shift and two keys in the synthetic resins is 0.1 to 10, with 0.3 to 3 for well.
Catalytic amount in order to the acceleration curing reaction is 0 to 10%, and the per-cent that accounts for synthetic resins and solidifying agent total amount with weight metal calculates.
Available currently known methods prepares the present invention's solidifying agent.
In principle, Michael reaction can at room temperature or more be carried out under the low temperature, but improves temperature of reaction or add the catalyzer accelerated reaction, suitable catalyzer has basic cpd and alkaline aminocompound, the basic cpd example has, alkyl metal hydroxides, metal alkylide alcoholate.
Can carry out on the acid methylene radical of CH-of carboxylicesters of Michael reaction a substituting group being arranged, in this case, this ester and α beta-unsaturated carbonyl compound especially carboxylic acid derivative react and just can obtain the monobasic adduct.If this carboxylicesters contains an acid methylene radical of unsubstituted CH-, then this ester can carry out Michael reaction with α β beta-unsaturated carbonyl compounds again with the acid H atom in the ester, generates oligomeric adduct.Solidifying agent molecular weight and functionality, ester group and the distribution of polymerisable double bonds in the solidifying agent molecule that can carry out the transfer of transesterify or acid amides can have nothing in common with each other, and can adapt to various particular requirements.
Contain urethane or urea base and can produce like this with formula 1 corresponding curing agent component, the hydroxy ester class of α beta-unsaturated acid, the oxyamide class, amides, amino ester aminoamide and isocyanates reaction, carry out Michael reaction with monocarboxylic acid that can carry out Michael reaction or dicarboxylic esters then, isocyanic ester is used in this reaction, but the isocyanic ester of industrial-scale production especially, as the toluylene group diisocyanate, 1.6-hexylidene two different acid esters, isophorone isocyanic acid acid esters, the formation reaction of urea or urethane is carried out under neutral temperature usually, and available known catalysts accelerated reaction, for example, dibutyl tin laurate, carry out if be reflected in the solvent, select isocyanic ester performance inert solvent.If curing component when Aquo System is used, is preferably selected solvent easily mixed with water for use when then preparing solidifying agent, as, diethylene glycol dimethyl ether, acetone, methyl ethyl ketone, or methyl iso-butyl ketone (MIBK).
If adopt free α beta-unsaturated acid to replace ester or acid amides, then make the curing component of amide-containing, in this case, the direct decarboxylation of acid and isocyanic ester generates corresponding amides.
Above be described with the solidifying agent representative of individualized compound, but in fact as the present invention, generation usually be statistics mixture (STATISTICAL MIXTURES).This is owing to the multi-functional of raw material causes, this does not influence their validity as the present invention's solidifying agent.
In the following example, part is a weight part, and per-cent (%) is weight percent.
Example
1. the preparation of solidifying agent
1) with 4.5 parts of methyl-cyanacetate, 0.4 a part benzyltrimethylammonium hydroxide is put into reactor, be heated to 60 ℃, drip 226.3 parts of two vinylformic acid hexylene glycol esters then, under 60 ℃, react until-C=C-double bond content and reach 8.5%, add 0.5 part of formic acid and 1.5 parts of hydroquinone monomethyl ethers then, get a kind of heavy-gravity weak yellow liquid.
2) (give product) with 2,160 parts of acid number≤1 hydroxyethyl acrylate, 3.8 parts of zinc acetylacetonates, 422 parts of diethylene glycol dimethyl ether are put into a reactor, be heated to 60 ℃, slowly drip 1636 parts of methylphenylene vulcabond then, the content that mixture is maintained under 60 ℃ until-N=C=O base is less than 0.2%, adds 15 parts of quinhydrones then, 422 parts of ethylene glycol, obtain concentration and be 80% limpid, heavy-gravity resin, resin double bond content are 9.5%.
It with 1016 parts of concentration 80% the product that gives, 10 parts of KOH and this 10 parts of KOH are dissolved in the solution that is made into 30% concentration in the methyl alcohol, put into reactor, are heated to 80 ℃, slowly drip 132 parts of dimethyl maleates, rate of addition should be grasped and make temperature of reaction be no more than 80 ℃.Mixture being remained under 80 ℃ until-C=C-double bond content reduce to 4.2%, use the ethyl glycol diluted reaction mixture, is 80% until solid content, adds 2 parts of Glacial acetic acid again, heavy-gravity, light yellow resin.
3) get 260 parts of ethyl 3-oxobutanoates earlier, 3 parts of KOH, these 3 parts of KOH are dissolved in the liquid that forms 30% concentration in the methyl alcohol, 50 parts of ethylene glycol, one is heated to 60 ℃, slowly drips 678 parts of two vinylformic acid hexylene glycol esters then, and temperature of reaction maintains 60 ℃, reach 4.7% until-C=C-double bond content, add 1 part of formic acid then, 2 parts of quinhydrones reach 80% with the ethyl glycol adjusting up to solid content, obtain low viscosity, yellow resin.
4) (give product) with 520 parts of unsaturated fatty acids acid glycidyl esters that contain the 9-11 carbon atom that side chain is arranged on the α position, 260 parts of epoxide, 130 parts of vinylformic acid, 1 part of sad chromium-(III) (dehydration), 1 part of ammonia quinone monomethyl ether places reactor, be heated to 80 ℃ until acid number less than 1, add 1 part of zinc acetylacetonate then, under 60 ℃, slowly drip 175 parts of methylphenylene vulcabond again, mixture maintains under 60 ℃, less than 0.5%, and then add 3 parts of hydroquinone monomethyl ethers until-N=C-O content.
With 10 parts of TBAH, 828 parts are given product and place reactor, be heated to 60 ℃, slowly drip 70 parts of Malonic mononitrile butyl esters, with mixture maintain 60 ℃ until-the C=C-component is 2.7%, adds 3 parts of quinhydrones and 2 parts of lactic acid then, dilute this batch materials with the butyl hexylene glycol again, to solids content be 80%, absinthe-green, the resin of medium sliminess.
5) (give product) with 370 parts of bisphenol A diglycidyl ethers, its epoxy equivalent (weight) is that 185 and 1 parts of sad chromium (III) (dehydration) are put into reactor, be heated to 60 ℃, slowly drip 140 parts of vinylformic acid then, reaction mixture is maintained under 60 ℃, drop to below 1 until acid number.
Give product with 510 parts, 3 parts of KOH, these 3 parts of KOH are dissolved in the solution that is mixed with 30% concentration in the methyl alcohol, and 100 parts of ethylene glycol are put into reactor, be heated to 60 ℃, drip 115 parts of acetoacetic acid 2-ethylhexyls again, with mixture maintain under 60 ℃ until-the C=C-double bond content is 3.3%, adds 3 parts of formic acid then, 7 parts of quinhydrones, it is 80% that mixture is diluted to solids content with ethyl glycol.
6) with 300 parts of trimethyol propane triacrylates, 3 parts of KOH, this KOH is dissolved in the solution that is mixed with 30% concentration in the methyl alcohol, put into reactor, be heated to 60 ℃, 40 parts of acetoacetic acid 2-of Dropwise 5 ethylhexyl again, mixture is maintained under 60 ℃, till can not detecting two keys with volumetry and existing, 1526 parts of the products metering under 60 ℃ of giving of the example 2 of 80% concentration is flowed in the gained mixture, react, until-the C=C-double bond content is 3.0%, adds 10 parts of formic acid and 10 parts of quinhydrones again, it is 80% that reaction mixture is diluted to solid content with diglyme, must be yellow, high thickness resin.
7) hydroxyethyl acrylate of 230 parts of acid number<1,160 parts of ethyl maleates and 1 part of benzyltrimethylammonium hydroxide are put into reactor (№ 1) together, carefully are heated to 60 ℃, keep 60 ℃ until-the C=C-double bond content is 0.5%.
Simultaneously, with 350 parts of methylphenylene vulcabond, 230 parts of Hydroxyethyl acrylates, 2 parts of zinc acetylacetonates are put into reactor (№ 2), be heated to 60 ℃, react till only detecting half free isocyanate groups group, with the mixing prod of reactor (2) gained under 60 ℃ carefully metering be added in reactor (1) the gained mixed reaction product, continue reaction and detect up to titration and do not go on a tour till-N=C=O group.Add 4 parts of formic acid and 10 parts of quinhydrones then, reaction mixture dilutes with ethyl glycol, to solid content be 80%, utmost point heavy-gravity, yellow resin.
8) with 696 parts of methyl acetoacetates, 1582 parts of hexanediol diacrylate, 3 parts of benzyltrimethylammonium hydroxides carefully are heated to 60 ℃ together, the reaction to-the C=C-double bond content is 2.1%, add 2 parts of formic acid then, 10 parts of hydroquinone monomethyl ethers, to be diluted to solid content with ethyl glycol be 80% to reaction mixture then, get utmost point heavy-gravity, little brown solution.
9) get 80% concentration 2 times gained of example give 1016 parts of products, 200 parts of polyepoxide one amine adduct A and with the ethyl glycol solution (face as follows) of 70% concentration as catalyzer, above-mentioned two reactants are put into reactor, slowly drip 132 parts of dimethyl maleates then, rate of addition is grasped and is no more than 60 ℃ in temperature, then mixture is maintained under 60 ℃ up to-C=C-double bond content and reduce to 3.6%, it is 80% that reaction mixture is diluted to solid content with ethyl glycol, add 1.8 parts of Glacial acetic acid again, get civilian thickness light brown resin.
II. contain the preparation of ammonia polymkeric substance
Polyepoxide one ammonia adducts A
3.6 part dimethylaminopropylamine
16.1 part 2 ethyl hexylamine mixture I
79.2 portion ethylene glycol monoethyl ether
With 2 liters of flasks, careful reflux mixture I under about 143 ℃.This flask is equipped with a reflux exchanger, agitator and resistance heater.
With epoxy equivalent (weight) is that 480 bisphenol A epoxide resin is dissolved in 136 portions of ethylene glycol monoethyl ethers for 317 parts, with 1 hour time, under 143 ℃, this mixture slowly is added drop-wise in the mixture I, use one hour time again, under 143 ℃, drip epoxy equivalent (weight) and be 130 parts of 260 epoxidized soybean oils, this mixture is in 142 ℃ of heating 10 hours down, the epoxide one ammonia adducts ethylene glycol monomethyl ether solution of 70% concentration.
Polyepoxide one ammonia adducts B
Epoxy equivalent (weight) is that 480 bisphenol A epoxide resin is dissolved in 339 parts of ethyl glycols for 638 parts, is heated to 80 ℃, 0.4 part of diethanolamine of Dropwise 5 and 57.8 parts of diisopropylaminoethyl ethamine simultaneously, and mixture was kept under 80 ℃ 3 hours.
Ammonia adducts C
Use currently known methods, can prepare polyaminoamide from dimer (fatty acid) yl and Diethylenetriaminee (DETA), the preparation method who is adopted should make the polyaminoamide of gained have the following characteristics data: solid content is 100%, the amine value is 300, acid number is near 2, and viscosity (75 ℃) is 3500mPa.S.
Polyaminoamide is dissolved in the dimethyl glycol ether, gets 70% concentration solution.
III. resin solidification
With 300 parts of titanium dioxide, it is in the 70% base polymer A solution that 50 parts of lead silicate are added to 100 parts of concentration.Grind this mixture with three barreling,, also carry out same processing for base polymer B and C.
The component that electrophoresis is bathed, the character of condition of cure and cured product all sees Table 1.
Being prepared as follows of electrophoresis body lotion at first will add base polymer A, the B of pigment or C, solidifying agent, catalyzer, the formic acid uniform mixing, the amount of each component sees Table 1, uses high speed agitator during mixing, slowly add deionized water then, be about 19% until electrophoresis body lotion solid content.
Electrophoretic deposition is performed such: in the electrophoresis liquid impouring plastics cylinder with 19% concentration, this cylinder is equipped with stainless steel anode, is connecting the metal sheet negative electrode of attached zinc phosphate bonderizing layer, under each routine situation, all provide less than 50 volts of the volts DSs of breakdown voltage value, last 2 minutes.The thickness of deposited film can be by adjusting with ethylene glycol monoethyl ether in electrophoresis solution, so that the fired film layer thickness is 18 to 25 μ M.Deposited film softening water rinsing is then according to the described condition baking of table 1.Metal sheet coated technique performance sees Table 1.
20) with 260 parts of dodecanes-1-olefinic oxide, 90 parts of vinylformic acid, 1 part of dehydration sad chromium (III), 0.3 part of hydroquinone monomethyl ether is put into a reactor, carefully is heated to 80 ℃, until acid number<1.Add 1047.3 parts of Hydroxyethyl acrylates again, 2.3 parts of zinc acetylacetonates slowly drip 898.5 parts of methylphenylene vulcabond again under 60 ℃, react, until-N=C=O content<0.5.10 parts of KOH are dissolved in 20 parts of methyl alcohol, and this KOH methanol solution is added drop-wise in the said mixture, add 509.4 portions of own vinegar of Malonic mononitrile 2-ethyl down at 60 ℃ again.Mixture maintain under 60 ℃ until-C=C-content is 4%, being diluted to concentration with a positive hexylene glycol is 80%, high heavy-gravity, green solution.
2) with 228 parts of ε-Ji Neixianan, 230 parts of Hydroxyethyl acrylates, 1 part of sodium methylate, 1 part of magnesium methylate, 5 parts of hydroquinone monomethyl ethers are put into reactor, and be heated to 80 ℃ up to free ε-Ji Neixianan content<5%, slowly drip 174 parts of methylphenylene vulcabond at 60 ℃ then, reaction mixture maintains under this temperature until-N=C=O content<0.5%, drip 80 parts of Malonic mononitrile 2-ethylhexyls again, reaction mixture maintain under 60 ℃ until-the C=C-double bond content is 3.2%, it is 80% that the product phenoxypropanol is diluted to concentration, must be limpid, utmost point heavy-gravity solution.
The preparation of ability cathode electrophoresis liquid
The solution that with concentration is 70% epoxide one ammonia adducts A is heated to 100 ℃, vacuum boils off solvent, steam as far as possible and remove totally, under 80 ℃, example 20 prepared curing agent solutions are added then, and made mixture homogenizing (epoxide-ammonia adducts is 75: 25 for the solidifying agent ratio, calculates by solid/solid), add lead octoate 36 again, lead accounts for 0.6% of total solid amount, under strong mixing and under 50 ℃, mixture is poured in the water that adds formic acid.With respect to the solid resin formic acid content is 50 milligramequivalents, and this solid content is that 35% height turbidity solution can dye with currently known methods and with titanium dioxide and alkali lead silicate, and dyestuff/tackiness agent ratio is 0.4: 1, and lead silicate and titanium dioxide ratio are 1: 6.It is 20% that the dyeing solution dilute with water transfers to solids content, deposits in the depositing device of a dress iron plate and stainless steel anode, and the electrophoresis bath temperature is 28 ℃ (depositing time 2 minutes, 10 centimetres of electrode distances, 250 volts of voltages).Paint film obtains the thick film with good mechanics and corrosion resistance of uniform 37 μ M in 150 ℃ of bakings 20 minutes.
The solidifying agent that use-case 21 is produced experimentizes with same step.Paint film is in 160 ℃ of down bakings 20 minutes, and the about 40 μ M of thickness also can obtain having the paint film of excellent mechanics and corrosion resistance.
Claims (13)
1, contain the curable synthetic resin method for preparing ingredients thereof that can form ester with carboxylic acid reaction and/or form the group of acid amides, comprise: interpolation can be carried out the monocarboxylic acid or the dicarboxylic esters class of Michael reaction and contain two compounds that can carry out two keys of Michael reaction at least carrying out Michael reaction, condition is that compound of reaction is chosen as follows, that is, make each molecule of adduct of generation contain a polymerisable double bonds and at least one at least and carry out the ester group that transesterify and/or acid amides shift (transesterificationand/or transamidation).
2, preparation method according to claim 1, wherein, the compound that contains two keys that can carry out Michael reaction is α, the ester of β-unsaturated monocarboxylic acid or di-carboxylic acid, acid amides or urea derivative.
3, preparation method according to claim 2, wherein, the compound that contains two keys that can carry out Michael reaction is a vinylformic acid, methacrylic acid, methacrylate (dimethla crylic acid), butenoic acid, the ester of toxilic acid or fumaric acid, acid amides or urea derivative.
4, preparation method according to claim 1, wherein, the carboxylicesters that can carry out Michael reaction is a propanedioic acid, acetoacetic acid, the ester that the substituent derivative of monobasic is arranged on the CH-acidic methylene of the ester of Bing Tongersuosuan or these acid.
5, according to claim 1 or 4 described preparation methods, wherein, the carboxylicesters that can carry out Michael reaction is a methyl, ethyl, butyl or 2-(ethyl hexyl) ester.
6, according to right 1 or 2 described preparation methods, it comprises, enables to carry out monocarboxylic acid or the dicarboxylic esters and the α of Michael reaction, and the ester of β-unsaturated monocarboxylic acid or di-carboxylic acid and polyvalent alcohol carries out Michael reaction.
7, preparation method according to claim 6, it comprises, enable to carry out monocarboxylic acid or the dicarboxylic esters and the α of Michael reaction, the beta-unsaturated carboxylic acid ester carries out Michael reaction, this α, the beta-unsaturated carboxylic acid ester comprises two vinylformic acid alkyl group diol esters or methacrylate alkyl group diol ester, three vinylformic acid trishydroxymethyl propyl ester or trimethylammonium vinylformic acid trishydroxymethyl propyl ester and pentaerythritol tetracrylate or pentaerythritol tetramethacrylate.
8, preparation method according to claim 1 and 2, wherein, Michael addition adducts is the urethane of the replacement shown in the formula (1) or the urea of replacement,
In the formula, R
M+nBe the basic R(NHCO of (m+n) valency of multi-functional isocyanic ester) m+n, m is an integer, is at least 1, and n is an integer, is at least 1, and A is chemical bond or amino alkylidenyl, the oxo alkylidene group, acid amides basic ring alkylidene group or oxo ring alkylidene group, B is amide group or Sauerstoffatom,
Be α; the acyl group of β-unsaturated monocarboxylic acid or di-carboxylic acid; M is the ester of monocarboxylic acid or di-carboxylic acid; and M is monocarboxylic acid or the dicarboxylic esters that has carried out Michael reaction with molecule; condition is that molecule should contain the two keys of an energy polymeric at least and at least one can carry out the ester group from carboxylicesters (M) reaction generation of Michael reaction; if A is a chemical bond, then B is an amide group.
10, preparation method according to claim 8, wherein, in the formula (1) A be linear fraction contain 5 carbon atoms at least 1,2-dibasic alcohol development base, B is a Sauerstoffatom.
12, according to claim 1,2 or 6 described preparation methods, it comprise the monocarboxylic acid that enables to carry out Michael reaction or di-carboxylic acid and-mixed ester carries out Michael reaction, this mixed ester is by α, the react mixed ester of formation of β-unsaturated dicarboxylic acid, dibasic alcohol and the short and long-chain acyl triglyceride molecules that side chain is arranged on the α position that contains 9-11 carbon atom.
13, preparation method according to claim 1, it comprises, 1 Molar Energy carries out monocarboxylic acid or the dicarboxylic esters and the methylene-bisacrylamide of Michael reaction, tolylene bisacrylamide, 1.6-hexylidene bisacrylamide or the reaction of isophorone diacrylamine.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 85105226 CN1007974B (en) | 1985-07-08 | 1985-07-08 | Process for the preparation of a curing component for synthetic resins which contain groups capable of amide formation or ester formation with carboxylic acids |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 85105226 CN1007974B (en) | 1985-07-08 | 1985-07-08 | Process for the preparation of a curing component for synthetic resins which contain groups capable of amide formation or ester formation with carboxylic acids |
DE19853530843 DE3530843A1 (en) | 1985-08-29 | 1985-08-29 | AGENT FOR ADJUSTING A CONSTANT THICKNESS IN CATHODIC ELECTRO DIP PAINTING |
Publications (2)
Publication Number | Publication Date |
---|---|
CN85105226A CN85105226A (en) | 1987-01-07 |
CN1007974B true CN1007974B (en) | 1990-05-16 |
Family
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Application Number | Title | Priority Date | Filing Date |
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CN 85105226 Expired CN1007974B (en) | 1985-07-08 | 1985-07-08 | Process for the preparation of a curing component for synthetic resins which contain groups capable of amide formation or ester formation with carboxylic acids |
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CN (1) | CN1007974B (en) |
Families Citing this family (2)
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DE102006055944A1 (en) * | 2006-11-24 | 2008-05-29 | Henkel Kgaa | Crosslinking film adhesives |
JP6327147B2 (en) * | 2013-03-19 | 2018-05-23 | 三菱ケミカル株式会社 | Cationizing agent, method for fixing water-insoluble particles, and method for producing dyed product |
-
1985
- 1985-07-08 CN CN 85105226 patent/CN1007974B/en not_active Expired
Also Published As
Publication number | Publication date |
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CN85105226A (en) | 1987-01-07 |
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