SU1551702A1 - Method of manufacturing reinforced polymer concrete articles - Google Patents

Abstract

The invention relates to the technology of building materials and products, in particular, to methods for the manufacture of products from polymer concrete mixtures with reinforcing fibers. The purpose of the invention is to increase the destructive stress during bending and compression of the arm-polymer-concrete products. The method involves mixing a thermosetting resin, an acid hardener, a filler and metal fibers, which are pretreated with a 20% solution of sulfuric acid, kept in an air-steam mixture with a relative humidity of 80-95% and a temperature of 70-90 ° C for 30-60 minutes and dried The resulting mixture is subjected to molding, followed by curing products. The bending stress of polymer concrete samples is 27.0-30.2 MPa, and 85.7-90.4 MPa under compression. 2 tab.

Description

The invention relates to the technology of building materials and products, in particular, to methods of manufacturing products from polymer concrete mixtures with reinforcing fibers.

The purpose of the invention is to increase the destructive stress during bending and compression of the arm-polymer-concrete products.

The essence of the method lies in the fact that in the manufacture of reinforced concrete products, including the displacement of thermosetting resin, acid hardener, filler and metal fibers, the latter are pretreated with a 20% sulfuric acid solution and then kept in an air-steam mixture with a relative humidity of 80-95% and a temperature of 70-90 ° C for 30-60 minutes and dried. The resulting mixture is molded and cured.

An increase in the adhesion strength of metal fibers to the polymer matrix occurs due to the development of the metal surface as a result of non-uniform corrosion of steel (or cast iron and the interaction of the acid hardener with iron hydroxide compounds formed on the surface of the fibers to produce stronger compounds than the original matrix).

The treatment of the fibers with an acid solution is carried out to remove scale and fatty films, as well as initiate an oxidation reaction with the formation of iron hydroxide compounds while subsequently keeping them in a vapor-air medium.

For the preparation of polymer concrete samples with dimensions of 0x 0x160 mm, the composition is used, wt.%: Furfurol-acetone monomer (FAM) 11.3; benzenesulfs acid (curing agent) 2.85; filler 9, U; quartz sand 66,5, other fibers. with

Example. To make samples of polymer concrete, a mixture is prepared that includes a thermosetting resin (FAM) benzenesulfonic acid hardener in the form of a melt with a temperature of 50 ° C and tone-10 silica sand to a specific surface area. Combine the resulting polymer binder with sand, inject the polymer-concrete mixture in the process of mixing, the remaining fiber-JS on a diameter of 0.7 mm and a length of 30 mm, molded and heat-treated at 70 ° C for 12 hours. The samples are then decomposed and the bend and the remaining halves are subjected to a 20 compression test.

PRI mme R 2. Steel fibers are processed in a solution of 20% sulfuric acid, and then kept in an air-steam mixture with a relative 25 humidity of 70% and a temperature of 80 ° C for 30 minutes, followed by drying. After treatment, steel fibers are used to manufacture dispersion reinforced polymer concrete according to example 1

Examples of the method are presented in table. one.

Claims (2)

Indicators of physico-mechanical properties of samples of polymer concrete, manufactured according to the proposed method and known, are presented. 2. I Formula of invention A method for the manufacture of arm-polymer-concrete products, comprising blending a thermosetting resin, an acid scavenger, fillers and reinforcing fibers previously treated in an activating medium, characterized in that, in order to increase the breaking stress during bending and compression of the arm-polymer-concrete products, the metal fibers are treated with 20 % sulfuric acid solution to remove scale and fatty films and initiate an oxidation reaction to form hydroxide compounds air mixture with a relative humidity of 80-95% and a temperature of 70-90 ° C for 30 minutes and dried. 70 80 90 98 95 95 95 95 95 95 95 95 95 Table 1 30 30 30 30 30 30 30 thirty 30 10 0 60 90 26.2 29.6 T a b l i C a The proposed method 26,8 37, 37.8 M 11, 3b 51.6 50.5 20, 13.3 53.7 5.1 5.1 5.1 known 77.6 83.6 85.7 87.2 80.8 79.9 87.2 88.2 90.0 80.6 78.3 86.7 90, 91.9 Method 7.7 10.1 12.3 M 2.9 12.2 13.5 16,0 3.9 0.9 11.7 16.3 18.1 13.0