DE1669932B2 - METHOD FOR MANUFACTURING SHAPED FLEXIBLE POLYURETHANE FOAM ARTICLES - Google Patents

Description

The invention relates to a method for producing molded flexible articles from polyurethane foam. where no high temperature hardening is necessary.

Polyurethane foams are made by reacting a polyol and a polyisocyanate (or polyisothiocyanate) obtained in the presence of a propellant. The propellant is conveniently carbon dioxide, obtained in situ as a result of the reactions by which the polyurethane is formed. For example, a foam-forming composition can be prepared by adding a polymeric polyol and polyisocyanate is reacted with free isocyanate groups to form a polyurethane prepolymer, which is then reacted with a compound that contains active hydrogen atoms, for example water, to cause carbon dioxide generation, thereby foaming the resulting polyurethane will. Alternatively, polyurethane foams can also be obtained using the "one-shot" method which is a polymeric polyol. a polyisoeyanate and a compound containing active hydrogen atoms be mixed with any other required ingredients, and the reaction of the Components are provided by a polyurethane, which at the same time • by the carbon dioxide generated in the process is foamed.

When the desired polyurethane foam is intended for use in the manufacture of large items such as mattresses. The reaction pigments are advantageously mixed with one another and the mixture is poured into a bowl, the resulting polyurethane being foamed by the carbon dioxide produced in the reaction, which results in a self-supporting polyuretane "loaf" which, after gelling, is cut into the desired objects can be. However, if the polyurethane foam products are to be used to make smaller objects with a more difficult shape, such as seat cushions, the loaf process is nowhere near as practical and it is often preferred to hit the polyurethane foam in a closed mold by introducing the mixture of the reactants into the mold, closing the mold and leaving it in place long enough to form the polyurethane foam and to gel in the shape of the tower. However, in this latter method, when using conventional polyisocyanates such as tolylene diisocyanate, it is necessary to subject the molded article to a further ripening step, which normally involves removing the molded article from the mold and heating it in a hot air molder. This additional step is inconvenient. and increases the cost of the molded products because of the increased production time, the space required to house the furnaces, and the high capitalization costs, as well as the fuel required to heat them.

According to the invention there is provided a method by which molded polyurethane foam articles can be obtained without the need for the additional step mentioned above. The invention concerns; hence a method of making molded flexible polyurethane foam articles Reaction of an organic polyisocyanate with a polyoxypropylene with chain end groups, which consists of ethylene oxide and optionally residues of a polyhydroxy alcohol as a middle piece, derive, wherein the polyisoeyanate has two, three or four benzene rings, each at least contain an isocyanate group, the rings being linked to one another by methylene groups characterized in that the reaction mixture containing the polyol and the polyisoeyanate in one Form is fed and left in one stage without the application of heat. The polyisoeyanate is preferred one of the technical products known as M.D.l. or P.A.P.I. are known.

M.D.l. is a diisocyanate of the formula

OCN

// V

CH,

/ V

NCO

and ΡΛ.Ρ.Ι. is a stabilized mixture of di-, Tri- and tetraisocyanates, which contain approximately three isocyanate groups per molecule. When the mix simply viewed as having three isocyanate groups per molecule, it can be considered one Mixture of isomers of the following general formula

OCN CH ₂

CH ₂

^NCO

NCO

be considered.

The polymeric polyol used in the process of the invention is a polyether triol having a molecular weight of 3000 to 7000, especially 3000 to 5000, for example 4800 to 5000. Although triols have been found to give very satisfactory results, the polyol need not necessarily have to be three Have hydroxyl groups and can be, for example, a tetrol or hex oil or a mixture of polyols with a different number of hydroxyl groups per molecule. Regardless of the type of polyol component, it preferably has a hydoxyl number from 24 to 56, in particular from 33 to 56, for example from 33 to 34.

3 from ₄

The polyul is a block copolymer of component is added, the weight is on

Propylene oxide, i.e. from 1,2-propylene oxide and ethyl water present normally in the range of

lenoxyd, in which the greater part of the length of 2 to 5%, in particular from 2.5 to 3.5%, based on

Polymer chain from the polyol weight derived from propylene oxide.

Groups and a lesser part of the length of the chain 5 The polyurethane foaming mass can neean the ends thereof contain constituents derived from ethylene oxide, for example foamed plastics Groups. Suitable polyols are in the bilizing agents, pigments, fillers and auxiliaries known as "polyols with ethylene oxide". propellant.

The polyol can be, for example, a diol which is further illustrated by the following examples

a bulk polymerization exemplified by water or io,

a dihydroxyglycol has been initiated. .

has been, or the polyol can be a trio! or an example 1 to IU

Tetrol, which is produced by bulk polymerization In these examples, is the manufacture of flexible

which has been made by a polyhydroxy molded polyurethane foam articles without

alcohol, for example glycerine, or a polyamine 15 using a separate hardening stage

i'iitiated. The use of a polyoxyben.

, Mopylentriüls with a glycerine middle piece is in the table below are the in each

especially bi-preferred. Example components used and the weight

Mix in the polyurethane foam-forming compound in which these constituents are used

/, sometimes a catalyst to accelerate the 20 den specified. The polyol is a polyoxypropylene

^v emetzung or chain extension of the foam with chain end groups which are derived from ethylene oxide

Ground included, and it can derive the connections. In Examples 1 to 5 and in the

yen, which are usually used as catalysts in the Her- Examples 7 to 10, the polyol has a molecular

. Division of flexible poly shell foams weighs 5000, while in example 6 the polyol

will be sent. Find application. Suitable catalyst has a molecular weight of 3000. That used

Examples of catalysts are amine catalysts, such as silicone oil is a polymethylsiloxane / oxyalkylene block

·. ine or more of the compounds triethylenediamine, 'mischpolymerisat.

\ -Dimethylethanolamine or N-methylmurpholine. The foams are made according to the following working

Other suitable catalysts are metal compounds made:

fertilize, commonly used as "catalysts 30. The ingredients are the following four

are formed, for example, ester, alkyl ester salts of reaction components:

Metals of groups IV, V and VI of the periodic _A polyol

Systems, whereby the metals of group IV, in particular _ . ..., .... ·

whose metals in subgroup A, preferably ^B a mixture of water, amine

are. Examples are dialkyltin diesters of fatty acids, catalyst or catalysts

like dibutyltin dilaurate, dibutoxytin dilaurate, or ^and ^ ¹ '' * ⁰¹¹⁰¹

divalent tin soaps, such as tin (II) octoate, tin (II) -i.so- C polyisocyanate

octoate or tin (II) oleate. Optionally, the D tin (II) octoate (if used),

Catalyst a mixture of one or of dissolved in a small amount of the

several amine catalysts and one or more polyols
comprise several metal compound catalysts.

The total amount of catalyst can beispids- These four components are then used simultaneously

wisely 0.3 to 2%, especially 0.5 to 1.5% of that is directed to a four-way feed mixer head,

Make up the weight of the polyol. where they are mixed together, and which are

In the method according to the invention, a 45 resulting mixture is fed into a mold Surfactant can be used, however, which is then capped. Foaming and Verdies not essential. There can be any surface-active wetting of the foam in the closed Means can be used that are conventionally in the form without any procedural difficulties Mixtures for the production of flexible polyurethane instead of, and within 10 minutes after sealing than foams is incorporated, in particular 50 of the form is a hardened polyurethane foam silicone oils, for example, polysiloxane / oxyalkyte product obtained. This time is of course considerable-block copolymers. borrowed under the one that is necessary when the molded

If the propellant is carbon dioxide hardened by product in a hot air oven,

the application of water in the reaction mixture if a four-feed mixhead does not

originates, the water in the reaction mixture can be available, the reaction mixture can

liquid component can be incorporated or can be obtained by first adding ingredients A

be provided in vapor form, which are mixed during the and B, then C and then D

Response is delivered. When the water is mixed in as a liquid.

Polyol

water

Catalysts Triethylenediamine product ...

example

100

2.5

0.5

100

3 4th 5 6th 7th 8th 9 10 100 100 JOO 100 100 100 100 100 2.5 2.5 3.5 2.5 2.5 3.5 3.5 2.5

continuation

I. 1.0
0.4
0.1
44.4
10 N-dimethylethanolamine
product
N-methylmorpholine
Tin (II) octoate.
Silicone oil
MDI 0.1
44.4
10 PAP I
Freon II
(Trichlorofluoromethane) ....

example

0.5
0.5
0.4
0.1
44.4

10

From the prior art, as z. For example, from French Patent Specification 1,121,252 or German Auslegeschrift 1,142,233 showed it was not known to produce the molded polyurethane foams stage in the cold. This is proven by the following comparison tests:

Test report

The determination of the »permanent Deformation or compressibility «. The determination of compressibility was made

4th 5 6th 0.5 0.5 0.5 0.5 0.5 • 0.5 0.4 0.4 0.5 - 0.2 0.2 44.4 59.4 50.1 10 10 10

0.5
0.5
0.2
0.2
50.1

8th 9 0.5 0.5 0.5 0.5 0.2 0.2 0.2 0.2 66.5 66.5 10

0.5 0.5 0.2 0.2

48.1
10

according to the British. Standard BS 3377 was carried out using a piece of foam which had an area of 5.1 x 5.1 cm and was 2.5 cm high. The test piece was compressed so that the height was decreased by 75% (that is, the height of the test piece was decreased to 0.6 cm). The test piece was left for 24 hours compressed, stored in an oven at 7O ⁰ C, thereafter, the test piece was removed from the oven, then it was unloaded and stored for 30 minutes and then the height was determined. The permanent deformation (in%) given in the table is determined as follows:

Permanent deformation (%) = JUrjprüngh of the load),

Original height

The results obtained from the experiments are as follows: 100.

attempt

procedure

as in Example 1 of the invention
as a)

Prepolymer process as in
Elcispiv. ' ¹ I of the German interpretation
font 1 142 233
as in Example 1 of the invention
as in example XXXI of the
French patent specification
I 121 252

Isocyanate Curing conditions density
(kg / m ³ ) Permanent ones
Deformation MDI cold 52 3.6 MDI Heat (140 ° C 52 3.75 while 10 mins) MDI cold 72 2.7 MDI cold 52 3.6 1 TUE cold

Although the permanent set is lower in test C than in test A. it should be noted that the two products cannot be compared directly with one another. If the same weight of foam was used in experiment C as in experiments A and B, a product was obtained which did not completely fill the mold.

In order to completely fill the mold with mass and to obtain a uniform shape of the product, it was necessary to use an additional amount of foam, and the density of the molded product was 72 kg / m ³ , which is about half more than the density of the test pieces in Examples A and B and much higher than the flexible foam moldings that are commercially available.

Experiment C was not the exact repetition of Example I of German Auslcgeschrift 1 142 233, but the conditions of this example were based on the implementation of the polyol dis Example 1 of

present application with Mt) I applied.

It should also be noted that the shape used in these experiments was "a closed shape" made up of a lower and an upper Shell existed and which had a defined mold space.

Such forms are used for the technical production of pillows and mattresses. However, in Experiment E, it was found that a suitable molding was not obtained using the closed mold because the product broke if

it has been removed from the mold. It was therefore necessary in Experiment E to use a shape which was opened at the top to obtain a test piece for determining the permanent deformation. Became Determining the permanent deformation in test E, it was found that the test piece did not recover from the compression at all.

It emerged that, compared to the procedure according to the German Auslegeschrift 1 142 233, which both in

the cold in two stages as in the heat was carried out in one stage, the products according to the present Invention were practically equivalent, while the products according to the present invention to the products according to French patent specification 1121 252 are clearly superior. Compared to the German Auslegeschrift 1 142 233, it means a clear one The advantage that according to the invention can be carried out in one stage without the use of heat.

Claims (1)

Claim: Process for making molded flexible polyurethane foam articles by US Pat Implementation of an organic polyisocyanate with fine polyoxypropylene with chain end groups, Fiie is derived from ethylene oxide and, if necessary, the last of a polyhydroxy alcohol as the middle piece contains, derive, the polyisoeyanate having two, (three or four benzene rings, each at least contain an isocyanate group, the rings being connected to one another by methylene groups are marked by this *. .; et that the reaction mixture containing the polyol and containing the polyisoeyanate, fed into a mold and cured in one step without the use of heat is left.