SU670115A1 - Process for preparing foamed plastic - Google Patents

Abstract

1. METHOD OF OBTAINING A FOAM PLASTIC by mixing a phenol-formaldehyde resin of a resole type with a foaming agent and an acid catalyst followed by foaming and curing of the resulting composition, characterized in that, in order to increase the mechanical strength of the foam and improve its structure, 2 -4% solution of orthoboric acid in phenol-alcohols in the amount of 10-50% by weight based on phenol-formaldehyde resin. 2; A method according to claim 1, characterized in that a 2-4% solution of orthoboric acid in phenol-alcohols is mixed with phenol-formaldehyde-hydrochloric resin previously. (IO)

Description

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The invention relates to a method for producing foams from phenol formaldehyde resins of a resol type, used in particular as a heat insulating material in construction, transport engineering, refrigeration technology and other areas.

A known method of producing a phenol-formaldehyde resin resole-type foam by mixing the resin with a foaming agent, acid catalyst and, if necessary, with other functional additives, followed by foaming and curing the resulting composition at ambient temperature or moderate heating.

The required process parameters and individual quality characteristics of the finished foam are achieved (within certain limits) by changing the type and quantity of the Cl3 components included in the foamed composition. The disadvantage of this method is the difficulty of obtaining a homogeneous cellular structure based on resole resins, in particular from casting compositions that are high activity during foaming and curing without external heating.

The closest in technical essence to the proposed method is a well-known method of producing foam plastic by mixing a phenol-formaldehyde resin of a resole type with a foaming agent and an acid catalyst followed by foaming and curing of the resulting composition 2.

The disadvantage of this method is that the resulting foam has a relatively low mechanical strength (particularly in compression), which inhibits or limits the use of such foam in a number of settings, as well as an uneven structure.

The aim of the invention is to increase the mechanical strength of the foam and improve its structure.

This goal is achieved by the fact that. in the process of making foam by mixing resole-type phenol-formaldehyde resin with a foaming agent and acid catalyst, followed by foaming and curing the semi-finished composition into the initial mixture of a 2-4% orthoboric acid solution in phenol alcohols in an amount of 10-50% by weight based on phenolic foil bottom resin.

Another difference of the proposed method is that the orthoboric acid solution in phenol alcohols is mixed with the original rezol type phenol formaldehyde resin previously, preferably at the stage of resin production, which simplifies the process of obtaining foam by reducing the viscosity of the resole resin, increasing its stability in time and reduction in the number of composite components of the foamable composition.

The method according to the invention consists in mixing 100 mash. liquid phenol-formaldehyde resin rezol type, first with 1050 wt.h. 2-4% solution of orthoboric acid in phenol-alcohols, and then with predetermined (commonly used) amounts of acid catalyst (strong mineral acids NSG, or, better, sulfo-aromatic acids or oligomeric condensation products based on them), foaming agent (fine powder aluminum, chlorofluoroalkanes with a boiling point not higher than 80 ° C, etc.), a surfactant (OP-7, silicone and other non-ionic surfactants) and, if necessary, other known functional additives (fillers, dyes, itsiruyuschie agents) and subsequent foaming and curing obrazuyuscheys the reaction mixture in the form or directly in the cavity structure (product) at atmospheric pressure and temperature etc. of industrial premises or moderate (not higher than 100 ° C) heating. The mixing of the above-mentioned precursors can be carried out in devices of periodic or continuous operation in conditions of stationary production or directly at the place of use.

Introduction to the composition of a solution of orthoboric acid in phenol-alcohols in quantities below 10% and above 50% by weight (relative to the initial resole resin) is impractical, since in the first case the technical gain becomes almost unnoticeable, and in the second - equivalent efficiency is achieved less economically.

The solution of orthoboric acid in phenol alcohols is preferably introduced into the foamable resol resin, at the stage of its manufacture, since in this case the compatibility with the alkali catalyst in

the obtained resin and mixing it i: the proposed additive. At the same time, a mixture is prepared, having fsH 4.5-7.0, better than 5.5-6.5, it has an increased stability during storage and transportation, it is easier to strictly standardize in quality and pererabigyvatsya on site.

The maximum technical effect is achieved when producing the foam according to the invention based on relatively highly condensed resole-type phenol-formaldehyde resins, i.e. namely, those high-level resin resins that are most difficult to rationally process into a foam plastic of acceptable quality in a known manner.

Example. To prepare the foam, a resol resin is used, obtained by condensing 1 mol of phenol with 2 mol of formaldehyde in an alkaline medium until the viscosity reaches 1000 cP. 50% by weight of a 3% orthoboric acid solution in phenol alcohols, which are the primary products of the reaction of 1 mol of phenol and 0.7 mol of formaldehyde in the presence of a cathrytic amount of alkali, are introduced into this resin (before drying).

When the acid solution is added, the pH of the resin decreases from 9.2 to 5.5. Then the neutralized resin is dried in vacuum. The finished resin resin has a viscosity of 7,000 cps.

The foaming composition is prepared by mixing 100 mash. the obtained rezol resin, 3 wt. OP-7, 2 ma.ch. aluminum powder and 20 ma.ch. product VAG-3. The resulting composition is foamed and cured at room temperature with the formation of a foam having an apparent density of 72 kg / m and a compressive strength of 5.0 kgf / cm.

The resole resin obtained in dialogical conditions and with the same synthesis parameters, but in the absence of orthoboric acid solution in phenolic alcohols at room temperatures, was not possible to process it during foaming and hardening in foam plastic.

EXAMPLE 2 A composition for foaming is prepared by mixing the following components, in weight, parts: SF-39-21C resin (resin of 50 centipoise) 100 4% orthoboric acid solution in

 phenol alcohols, which are the primary products of the reaction of 1 mol of phenol with 1.5 mol of formaldehyde in an alkaline medium, 10 Laprol 5003-2B-10 (polyether based on propylene oxide, ethylene oxide) o, 5, 2-Trichloro-1,2 , 3trifluoroethane (freon113) .7

Acidic catalyst (phenol sulfonic urea condensation product with formaldehyde) 20 The resulting composition is poured into a cardboard box, where it foams and cures without external heating, forming a foam foam with a seemingly tight network of 57 kg / m and a compressive strength of 4.1 kg / sy.

EXAMPLE 3 A foam block is produced by cold molding in metal form with a size O, 8-0.6-0.1 m from a foaming compaction formed by mixing 100 mas. phenol-formaldehyde resole resin FRV-4, in which, at the manufacturing stage, 30% by mass of a 2% orthoboric acid solution in phenolic alcohols are introduced, 3 parts by weight. OP-10, 1 mac. aluminum powder and 15 ma.ch. product VAG-3. The resulting block of foam has an average apparent density of 79 kg / m and a compressive strength of 5.0 kg / cm.

EXAMPLE 4. For comparison, a foam is obtained using a known foam 2 1.

The foaming composition is prepared by mixing 100 mash. rezol emoli brand FRV-1A, obtained by condensation of 1 mol of phenol from 1.65 mol of formaldehyde in the presence of caustic soda until it is compatible with water 1:10, neutralized with an acid to a pH of about 7.0 and dried in vacuum, with

0 1 ma.ch. aluminum powder, 3 mach. h OP-10 and 17 mach. h. product VAG-3. Foaming and curing of the composition is achieved in metallic form with a size of 0.8-0, m

5 yi room temperature (about). The resulting foam has an apparent density of 75 kg / m and a compressive strength of HS / s.

0

The parameters of the foams obtained as described in examples 1-4 are shown in the table.

Claims (2)

1. METHOD FOR PRODUCING FOAM PLASTIC by mixing resole-type phenol-formaldehyde resin with a blowing agent and an acid catalyst, followed by foaming and curing of the resulting composition, characterized in that, in order to increase the mechanical strength of the foam and improve its structure, 2-4% is introduced into the initial mixture a solution of orthoboronic acid in phenol alcohols in an amount of 10-50% by weight based on phenol-formaldehyde resin. 2. The method of pop. 1, characterized in that a 2-4% solution of orthoboric acid in phenol alcohols is mixed with phenol formalde-. with a preliminary resin. THX