SU1671881A1 - Composition for anchor fixing - Google Patents

Abstract

The invention relates to the fastening of mine workings and is intended to fasten anchors in a rock mass using polymer concrete mixtures. The goal is to increase the penetrating power of the composition. To fix the anchors, use is made of a composition consisting of the following components, wt%: polyester resin 25-30, mineral filler 60-70, hardener 3-5, accelerator 1-2, and soda ash / KS / 1-5. Introduction to composition KS allows to increase the volume of polymer concrete (PB) during curing and to ensure deep curing of the formed mastic. The reaction with aldehydes of polyester resins KS forms carbonic acid, which decomposes, releases carbon dioxide, and so on. froths PB. Carbon dioxide creates a protective layer on the surface of the mastic, which reduces the inhibitory effect of atmospheric oxygen, which makes it possible to increase the curing of the mastic and eliminate the stickiness of the product. The ability of the PB to increase in volume due to the introduction of the CS allows it to penetrate into the cracks of the massif and completely fill the hole. As a result, the adhesion area of the PB with the rock increases. 2 tab.

Description

The invention relates to the fastening of mine workings, anchors, in particular to compositions for fastening anchors in a mountain massif using polymer concrete mixtures.

The aim of the invention is to increase the penetrating power of the composition.

For the implementation of the method used the following composition, wt.%:

Polyester resin 25-30

Filling 60-70

Hardener3-5

Accelerator1-2

Soda Ash1-5

The use of soda ash makes it possible to increase the volume of polymer concrete during curing and to ensure deep curing of the resulting mastic due to the fact that the soda ash, interacting with aldehydes of polyester resins, forms carbonic acid, which decomposes, releases carbon dioxide and thus foams polymeric concrete . At the same time, carbon dioxide creates a protective layer on the surface of the mastic, which reduces the inhibitory effect of oxygen by air XX

CO 00

ha, which increases the curing of the mastic and eliminates the stickiness of the product. The ability of polymer concrete to increase in volume due to the addition of soda ash allows it to penetrate into the cracks of the massif, completely fill the hole, and as a result increase the area of adhesion of the polymer concrete to the rock.

Examples of the use of compositions of various compositions are given in Table. one.

The composition of the polymer composition of cold curing is made as follows. The mixer quantity of the resin, accelerator and filler is sequentially loaded into the mixer-dosing unit. The filler can be chalk, talc, dolomite, etc. The mixture is stirred until homogeneous. The required amount of hardener is poured into another container (50% - onto benzoyl peroxide paste in dibutylphthalate), covered with soda ash and stirred for 5-10 minutes. The contents of the mixer-dispenser are packaged in polyethylene or glass ampoules with a diameter of 25-36 mm, a length of 320-500 mm, and then a glass tube with a diameter of 8-10 mm filled with a mixture of hardener and soda ash is inserted into it. The vials are sent to holes drilled in reinforced rocks, after which a reinforcing bar is inserted, giving it a rotation of 200-300. After mixing the composition for 40-60 seconds, its curing begins, followed by expansion of the polymer concrete. After 1.0-1.5, the strength of the polymer concrete reaches 60% of the maximum strength, which meets the requirements of steel polymer anchors. The increase in the volume of the polymer composition allows one to more fully fill the voids and cracks of the massif, opened by the hole, and thereby improve the quality of fastening.

In tab. 2 shows the properties of the proposed and known compositions.

Iztabl. 2, it can be seen that when used in the proposed composition, soda ash in an amount of 1-5% allows to increase the volume of polymer concrete by 2-10% and thereby increase the anchorage strength of the anchor to 80 kN. In addition, released carbon dioxide forms a protective layer on the mastic surface, reducing the inhibitory effect of atmospheric oxygen, which eliminates the stickiness of the mastic, i.e. to improve its consumer quality also when used as a putty or putty when leveling, Tm,

joints, cracks on metallic and non-metallic surfaces. When using chalk and talc, there is no separation of these fillers with a resin, which allows to increase the shelf life of the mastic.

Claims (1)

Invention Formula The composition for fixing the anchors, including polyester resin, mineral filler, accelerator and hardener, is characterized in that, in order to increase the penetrating power of the composition, it contains additionally soda ash in the following ratio, wt.%: Polyester resin 25-30 5 Mineral filler 60-70 Hardener3-5 Accelerator1-2 Soda Ash1-5 Table 1 table 2