RU1722022C - Composition for phenolic foam plastic - Google Patents

Abstract

FIELD: heat-insulating foam plastics. SUBSTANCE: composition has, wt.-% : total shaly phenols 44.7-45.3; calcium carbonate 0.5-0.9; acid asphalt 8.9-9.7; formalin (37% aqueous solution of formaldehyde) - the rest. Acid asphalt has, wt. -% : aromatic sulfoacids 50-60; sulfuric acid 15; oils (polycyclic aromatic hydrocarbons) 30-40, and mechanical impurities 1.5. Composition is used in building, chemical and other branches of industry. EFFECT: enhanced quality of composition. 2 tbl

Description

 The invention relates to the production of filling-type foams intended for use as heat-insulating products in construction and other industries.

 Known compositions consisting of rezole phenolaldehyde resin, surfactant, blowing agent and acid catalyst.

 The closest in technical essence to the proposed one is a composition for the production of foam, consisting of total shale phenols, formalin, a nonionic surfactant, a blowing agent and an acid catalyst.

 However, the foam obtained from it has a low strength and a high acid number.

 The aim of the invention is to increase the strength of the foam and reduce the acid number.

This goal is achieved in that the composition for producing a foamed phenoplast, including total shale phenols (SSF), formalin and calcium carbonate, contains acid tar containing, by weight, as an acid catalyst. %: aromatic sulfonic acids 50-60, sulfuric acid 15, oils (polycyclic aromatic hydrocarbons) 30-40, mechanical impurities 1.5, with the following ratio of components of the composition, wt.%: Total shale phenol 44.7-45.3 Calcium carbonate 0.5-0.9 Acidic tar 8.9-9.7 Formalin (37% aqueous formaldehyde solution)
The invention is implemented as follows. Two intermediate compositions are prepared: the first by mixing SSF and calcium carbonate, the second by mixing acid tar and formalin. The prepared compositions are poured, mixed for 5-8 seconds and poured into a forming device.

 The invention is illustrated in examples 1-3, are summarized in table. 1. In example 4, benzenesulfonic acid (BSA) was used as a catalyst, in example 5, n-toluenesulfonic acid (n-TSA), in examples 6, BSK, n-TSA and sulfuric acid in a ratio close to their ratio in acid tar, in example 7, a mixture of these acids with the addition of petroleum oils.

 In the table. 2 shows the properties of the foam obtained from the compositions of examples 1-7.

 As can be seen from examples 1-7, the use of aromatic sulfonic acids in the composition (examples 4 and 5) can reduce the acid number by a factor of three compared to the prototype, and only the use of acid tar gives an increase in strength and a decrease in acid number by a factor of 10 (examples 1-3 )

 Thus, a composition containing acid tar as an acid catalyst allows to obtain a foam with higher strength and significantly reduce the acid number.

Claims (1)

COMPOSITION FOR Phenolic Styrofoam, including total shale phenols, formalin and calcium carbonate, characterized in that, in order to increase the strength of the foam and reduce the acid number, it additionally contains acid tar containing, wt.%: Aromatic sulfonic acids 50-60, sulfuric acid 15, oils (polycyclic aromatic hydrocarbons) 30-40, mechanical impurities 1.5, in the following ratio of components of the composition, wt.%:
Total shale phenols - 44.7-45.3
Calcium Carbonate - 0.5-0.9
Sour tar - 8.9-9.7
Formalin - Else

Images