DE2419969A1 - FINE PARTIAL EXPANDABLE STYRENE POLYMERIZES - Google Patents

Description

Our sign; 0 "Z. j50 526 Ka / UB 6700 Ludwigshafen, April 24, 1974

The present invention relates to one-piece, expandable Styrene polymers which, as a blowing agent, contain a mixture of halogenated, contain non-flammable hydrocarbons.

It is known, finely divided, expandable styrene polymers produced by introducing volatile hydrocarbons, in particular pentane, into the polymer particles « A disadvantage of this, however, is that both the non-foamed and the already foamed products these hydrocarbons diffuse out of the polymer particles and with the surrounding Air can form explosive gas mixtures.

Attempts have therefore been made to replace the hydrocarbons used as blowing agents with non-explosive and non-toxic blowing agents. Accordingly, a number of publications have suggested that halogenated hydrocarbons, such as dichloromonofluoromethane, dichlorodifluoromethane, dichlorotetrafluoroethane and others, should be incorporated into the polymer particles as blowing agents here too, the previously known methods "involve significant disadvantages Thus a Vorschäumverhaiten the expandable styrene which the 5 wt. fo n-pentane is similar, only with much larger amounts of propellant, for example, more than 15 percent can. # of difluorodichloromethane or tetrafluorodichloroethane. In addition to the sometimes considerable additional cost that this entails, halogenated hydrocarbons, which are normally gaseous at room temperature, such as, for example, monochlorodifluoromethane and dichlorodifluoromethane, have considerable processing difficulties. The larger amounts of these propellants cause higher pressures and thus a considerably greater expenditure on equipment when incorporating the propellants.

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medium in the polymer. If, on the other hand, higher-boiling halogenated hydrocarbons are used, which are liquid at room temperature, such as Trich.lortrifluoratb.an, such complex equipment is not necessary when incorporating the blowing agent into the polymer particles, but the foam made from it has considerably poorer product properties than a comparable foamed polystyrene with 5 $> n-pentane as a blowing agent.

These disadvantageous processing and product properties can be circumvented by only partially replacing the previously used hydrocarbons (pentane) in the finely divided, expandable styrene polymers with halogenated hydrocarbons, in accordance with another proposal. However, this in turn leads to no explosion-proof and non-flammable gas mixtures in and around the expandable or foamed Produktenο ₀

The object of the present invention was therefore to provide finely divided, expandable styrene polymers of high safety in the production, To show transport and processing, which with the disadvantages outlined above are not or only to a considerable extent are affected to a lesser extent.

This object was achieved by using a special mixture of at least two components from the group as the blowing agent which uses halogenated hydrocarbons.

The invention thus relates to finely divided, expandable styrene polymers which, as blowing agents, contain 5 to 15% by weight, based on the styrene polymer, of a mixture of halogenated, non-flammable hydrocarbons and, if appropriate, additional flame retardants and synergists, the blowing agent mixture consisting of (A) at least one halogenated incombustible hydrocarbon with a boiling point below O ⁰ O and (B) at least one halogenated incombustible hydrocarbon with a boiling point above O ⁰ G, but below

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Softening point of the styrene polymer, and in the halogenated incombustible hydrocarbons at least one halogen substituent Fluorine is.

Finely divided, expandable styrene polymers are used understood those consisting of particles of normal size, in particular those with a diameter of 0.2 to 2 mm, and which contain propellants "

Suitable styrene polymers are, in particular, polystyrene; but it may also be copolymers of styrene with other QC, ßungesättigten polymerizable compounds are used, at least 50 wt _o $> styrene as copolymerized units "Such oc, ßungesättigten polymerizable compounds are for example oc-Methylstyröl, ring-halogenated styrenes, ring-alkylated styrenes, acrylonitrile, Esters of acrylic and / or methacrylic acid of alcohols with 1 to 8 carbon atoms, N-vinyl compounds, such as vinyl carbazole, or small amounts, for example 0.01 to 0.1 % by weight, of compounds which have two polymerizable double bonds such as butadiene, divinylbenzene or butanediol di-acrylate. All of these products are well known and described.

Examples of component (A) of the propellant mixtures according to the invention are monochlorodifluoromethane, dichlorodifluoromethane, monochlorotrifluoromethane, monochloropentafluoroethane and hexafluoroethane. Examples of suitable components (B) are trichloromonofluoromethane, dichloromonofluoromethane, trichlorotrifluoroethane and dichlorotetrafluoromethane. In a preferred embodiment of the invention, the boiling point difference between (A) and (B) is at least 3O ⁰ O. Preference is given to mixtures which contain monochlorodifluoromethane and / or dichlorodifluoromethane as (A) and trichloromonofluoromethane as (B) «Particularly preferred as (A) is dichlorodifluoromethane "

The proportion of (A) in the propellant mixture is normally from 20 to 70% by weight and preferably from 30 to 50% by weight, based on the propellant mixture, which is from (B) 80 to 30% by weight , preferably

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wise 70 to 50 wt.

The finely divided, expandable styrene polymers contain 5 to 15% by weight, preferably 8 to 14% by weight, based on the Styrene polymer of the blowing agent mixture according to the invention. They can also be used to increase security Flame retardants and possibly synergists incorporated contain. Low-volatility, organic halogen compounds such as hexabromocyclododecane are suitable as flame retardants, Tetrabromoethane, pentabromophenyl allyl ether or phosphorus-containing compounds such as phosphoric acid esters, bromotricreeyl phosphate or Antimony compounds such as antimony trioxide, antimony oxychloride and antimony trichlorido These substances are usually used in quantities from 0.2 to 1.0 wt. #, based on the styrene polymer, as a synergist incorporated into the finely divided styrene polymers For example, dicumyl peroxide can be used.

The halogenated non-flammable hydrocarbons of the propellant mixture and, if appropriate, the additions of flame retardants and synergists can be carried out by any of the processes known for this purpose be incorporated into the finely divided styrene polymers. The only example here is the introduction of the Blowing agent during the bead polymerization of styrene or during the mixing process of styrene polymers in a suitable Mixing device with downstream granulation. Such procedures have already been sufficiently described, so that here need not be discussed in more detail.

The finely divided, expandable styrene polymers according to the invention Can be divided into foam and molded articles using the usual working methods. It has In particular, a process has been introduced in technology in which the finely divided, expandable styrene polymers are treated by treatment pre-foamed with steam and, after intermediate storage in air, the pre-foamed beads in a second processing step in closed molds with perforated walls Water vapor is completely foamed and thereby formed into moldings

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and blocks are welded »Purely the assessment of the manufactured in this way Foam moldings are primarily the bond between the polymer particles (welding), the dimensional stability of the foam moldings (collapse and shrinkage) and the length of the cycle times (pressure reduction times), doho of the times necessary for the production of a foam molded article are required in a mold before a second foaming process can take place in the same mold »

The finely divided, expandable styrene polymers according to the invention are characterized by good foaming behavior and very good processing properties and lead to moldings with high dimensional stability. Another important advantage of the propellant mixtures according to the invention is their combustibility and the resulting high level of safety during manufacture, transport and processing.

Finely divided styrene polymers, which contain only one or more halogenated hydrocarbons with a boiling point below ⁰ G as blowing agent, either produce foams with inadequate product properties or require considerable additional costs in production In the case of finely divided styrene polymers that contain only one or more halogenated hydrocarbons with a boiling point above O ⁰ C as blowing agent, the foaming agent residues remaining in the styrene polymer primarily impair the product properties of the foams present invention contain the advantage of better economy, better processability and more favorable product properties of the foams obtained,

The subject of the invention is illustrated by the following examples explained »

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Example 1 - 9

All samples were produced by bead polymerization in a stirred kettle. For this purpose, 0.0085 part by weight of sodium pyrophosphate and 0.0125 part by weight of sodium acetate were dissolved in 20 parts by weight of water and 19 parts by weight of styrene and 0.018 part by weight of dibenzoyl peroxide and 0.04 part by weight of tert-butyl perbenzoate were suspended in this aqueous phase , 1 part by weight of hexabromocyclododecane as a flame retardant “The stirrer was operated at 280 rpm during the entire polymerization. To carry out the reaction, the suspension was ^{heated to 90 0} O for 3 hours and then to 10 7 0 for a further 15 hours. After a total test time of 3 hours 10 minutes, 1 part by weight of ίΤ-vinylpyrrolidone (as a 10 ^ aqueous solution) added, a total of 5> 5 hours after the start of the reaction, the propellant or propellants were metered into the reaction mixture. The type and amount of blowing agents used are shown in the table. In Examples 5 and 9, 0.03 part by weight of dicumyl peroxide was added as a synergist, in Example 2 2 parts by weight of ethylbenzene were added as a plasticizer.

The thus prepared finely divided, expandable styrene polymers had mm (measured in toluene at 25 ⁰ O) and an average bead diameter of 0.8 in all cases, a viscosity number of 100 ml / g.,

Examples 1 to 4 are comparative examples. In Example 1, pentane was incorporated as a blowing agent. It serves as a yardstick for assessing the product properties. Examples 2 to 4 include the use of any hydrogen halide as propellants which do not correspond to the propellant mixture according to the invention. Examples 5 to 9 are examples according to the present invention.

To assess the product properties of the finely divided, ex-

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The products were made of pandable styrene polymers in a commercially available continuous prefoamer with steam pre-expanded, temporarily stored in the air for 24 hours and then in a 1 m block form with the dimensions 2 m χ 1 m 0.5 m foamed into a block. The steaming conditions were 0.6 atmospheres and 10 seconds.

The weld, the collapse, the shrinkage and the pressure reduction time were tested on the finished blocks.

The weld is determined by taking foam samples that from the center of the block are broken and the fracture surfaces are broken according to the number of pearls that have been torn are to be investigated. The ratio of broken pearls to the total number of pearls in the fracture surface is that Measure for the weld. Good welding means that the pearls do not separate along their boundaries; it causes increased strength. Measurements of mechanical properties (e.g. compressive stress according to DIN 53 4-21) have shown that a weld of 10 to 20 # is sufficient.

If a foam block collapses after foaming, it will not limited by flat, but by curved surfaces, a lath is placed along the two 1 m and 2 m long edges, in this way the lowest point of the curvature can be determined and represents a measure of the collapse. Collapsed blocks must trimmed, i.e. their surfaces are straightened. The collapse is undesirable because of the loss of material that occurs and should not be larger than the blocks that have been foamed with pentane.

The shrinkage of the block is determined by taking the length of the demolded block and the following .Formula the percentage Calculated shrinkage?

(Length of the block shape - length of the block) χ 100 length of the block shape

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It indicates the "loss of volume" during processing and should be as small as possible "

The pressure reduction time is the time, naoh that of the Pressure in the form of the maximum pressure has dropped to 0.1 atm. It measures the cycle time and should be as short as possible »

The results are summarized in the table. It can be seen that only the finely divided, expandable styrene polymers which contain the blowing agent mixture according to the invention are satisfactory Deliver results that are comparable to those of pentane »

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Tabel

Example propellant

CD CO 00

CD OO OO

Boiling point propellant content Γ On "] G-ew. $ Based on

"■ · * ■ the polymer

welding collapse shrinkage pressure reduction time volume weight

5 trichloromonafluoromethane / 24 / -30 6/6 dichlorodifluoromethane

6 trichloromonofluoromethane / 24 / -3Ο 6.7 / 3.8 Dichlorodifluoromethane

7 trichloromonofluoromethane / 24 / -41 6.2 / 3.5 monochlorodifluoromethane

8 dichloromonofluoromethane / 9 / -3Ο 7.6 / 4.3 dichlorodifluoromethane

9 dichloromonofluoromethane / 9 / -41 6.6 / 3.7 monochlorodifluoromethane

-1 / -2 -3 / -7 -7 / -4 -6 / -8 -4 / -6

0.6 0.7 0.9 1.0 0.9

0.5 13 10 12 10

1 Pentane 36 5 80 -7 / -10 0.9 16 18th 2 Dichlorodifluoromethane
+ 2 ^ plasticizers -30 8th 20th -10 / -15 0.9 2-3 35 3 Trichloromonofluoromethate 24 8th 0 -15 / -19 0.9 2-3 20th 4th Dichloromonofluoromethane 9 10 0 -15 / -18 1.4 2 18th

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Claims (1)

Claims 1 ^ one-piece expandable styrene polymer containing as a blowing agent a mixture of halogenate incombustible hydrocarbons and optionally additionally flame retardants and synergist, characterized in that the styrene polymer, a blowing agent mixture in amounts of 5 to 15 weight '% and preferably 8 to 14 wt " $, based on the styrene polymers, contain, which consists of (A) at least one halogenated incombustible hydrocarbon with a boiling point below 0 ⁰ C and (B) at least one halogenated incombustible hydrocarbon with a boiling point above O ⁰ G, but below the softening point of the styrene polymer , and in the halogenated non-flammable hydrocarbons at least one halogen substituent Huor is =, 2ο one-piece ", expandable styrene polymers according to claim 1, characterized in that the Ireibmittelgemisch 20 to 70 Gewo $> _t based on the mixture, the lower-boiling component (A) and 80 to 30 wt. <Fo, based on the mixture containing the higher-boiling component (B) 3 = ^ one-part, expandable styrene polymers according to claims 1 and 2, - characterized in that the boiling point difference of components (A) and (B) of the propellant mixture is at least 30 ° C = BASF Aktiengesellschaft 509846/0884