SU1736981A1 - Sealing cement - Google Patents

Abstract

Use: for fixing, sealing and sealing various products, repairing, assembling threaded products, sealing pipes and connections of various types. SUMMARY OF THE INVENTION: The composition contains 10-90 ppm diethylene glycol oligocarbonate methacrylate, 10-90 ppm xylitol oligocarbonate methacrylate, isopropyl benzene hydroperoxide 0.20-0.66 ppm, dimethyl p-toluidine 0, 21-0.60, benzosulfimid 0.01-0.30i sodium ethylenediaminetetraacetic acid (Trilon B) 0.01-0.05; 2,2-methylene bis-

Description

The invention relates to a method for preparing anaerobic compositions that are maintained for a sufficiently long time under conditions of contact with atmospheric oxygen, but are capable of rapid curing when the oxygen supply of air is stopped, for example, when placed in a gap of certain dimensions between metal or other surfaces. Compositions can be used for fixing, sealing and sealing various products in the automotive and aviation industries, machine-tool construction and other industries, as well as repairing various equipment, assembling threaded products, sealing pipelines and connections of various types.

A known method for the preparation of an anaerobic composition used in these cases consists in mixing dimethacrylate ethers of oxyethylene glycols and a thickener - viscosity regulator (branched polymers based on diallylphthalate, rubber SKN-18, etc.).

However, the method is characterized by insufficient polymerization rate, the lack of full compatibility of the components, low strength properties of sealants when using these thickeners.

The closest in technical essence and the achieved effect to the proposed is a method of obtaining an anaerobic composition based on diethylene glycol (OKM-2) and diphenylolpropane (OKM-5).

The composition of the anaerobic composition is as follows: the composition consists of two composition VI

WITH

about

about

00

"ShE

parts - the first part (I) contains: 50 incl. OKM-2; 50 incl. OKM-5; 0.5-1.0 incl. PB; 0.03 h inhibitor (from the class of hindered phenols); the second part (I) contains: 50 century OKM-2; 50 incl. OKM-5; 0.03-0.05 incl. ferrocene; 0.03 h hindered phenol inhibitor.

The disadvantage of the prototype method is the low viability of the one-component composition consisting of I and I parts, which leads to the necessity of mixing them immediately before use, and the associated operational difficulties, as well as the low strength of the sealing elements based on it. .

The aim of the invention is to obtain a one-component anaerobic composition of adjustable viscosity with increased viability and strength of sealing elements based on it.

This goal is achieved in that an anaerobic composition, including oligocarbonate methacrylate, diethylene glycol, 2,2-methylene-bis- (4-methyl-6-tert-butyl) phenol, isopropylbenol hydroperoxide, and dimethyl-phenol are added as an accelerator. -toluidine and additionally bensulfimide, ethylene diamine tetraacetic acid sodium salt and oligocarbonate methacrylate xylitol in the following ratio of components, wt.h .:

Oligocarbonate methacrylate diethylene glycol (OKM-2) 10-90

Oligocarbonate methacrylate xylitol

(OKMKD) 10-90

Isopropylbenzene hydroperoxide

(GIC) 0.20-0.56

Dimethyl p-toluidine

(DMPT) 0.21-0.60

Beysulfimide

(BSI) 0.01-0.30

Sodium salt

ethylenediaminetetraacetic

acids (Trilon B) 0.01-0.05

2.2 methylene bis (4methyl-6-tert-butyl) phenol (BP-2246) 0.01-0.05

For experimental verification of the proposed composition, compositions of anaerobic compositions were prepared.

The ingredients used in the anaerobic composition proposed are commercially available products.

with the exception of oligocarbonate methacrylate xylitol, which is obtained according to a known method. The viability of the compositions was judged by gel time

at 80 ° C. The strength of sealants in a threaded joint was judged by the amount of unscrewing moment determined on threaded pairs M 10 x 1.5 of steel Art. 30 using a known dynamometer

key.

Example 1.90 mac. xylitol oligocarbonatemethacrylate was mixed with 10 wt.h of diethylene glycol oligocarbonatemethacrylate; 0.20 wt. isopropyl benzene hydroperoxide; 0.01 wt. benzulfimide: 0.21 wt.h, dimethyl para-toluidine; 0.01 wt. ethylene diamine tetraacetic acid sodium salt; 0.01 wt.h. 2.21 methylene-bio (4-methyl-6-tert-butyl) phenol.

The viscosity of the composition is 40 Pa s, the gel time at 80 ° C is 45 min, the value of the shear moment (after holding for 24 h at room temperature) is 450 kg-cm

shear 100 kg / cm2,

The ratio of the components of the other examples are given in table 1.

Properties of anaerobic compositions are given in table 2.

As can be seen from the data of Table 2, the optimal properties are ensured during the implementation of the anaerobic composition according to examples 1,2,5,6. Going beyond the limits of the claimed ratios of the components (examples 3,4) or the use of other oligocarbonate methacrylates, initiators, accelerators and inhibitors (examples 8-10) leads to deterioration of properties.

Thus, the proposed anaerobic composition, which is a one-component system with adjustable viscosity (O., 3-40 Pa s) and high viability (gelation time at 80 ° C, which is in the range of 20-80

min, corresponds to the pot life of the composition at room temperature for 10-14 months), the properties of which exceed the given pairs of meters of the prototype example (example 7, higher values of shear moment and tensile strength).

Claims (1)

Anaerobic composition comprising diethylene glycol oligocarbonate methacrylate, 2.2 methylene bis (4-methyl-6-tert-butyl) phenol, isopropyl benzene hydroperoxide, and an accelerator, characterized in that, in order to obtain a single component adjustable viscosity with the increased viability and strength of hermetics based on it, it contains dimethyl-p-toluidine as an accelerator and, additionally, benzulfimide, the sodium salt of ethylenediaminetetraacetic acid and oligocarbonate methacrylate xylitol at the following ratio shenii components, parts by weight of diethylene glycol Oligokarbonatmetakrilat .: 10-90 Oligocarbonate methacrylate xylitol 10-90 0 Isopropylbenzene hydroperoxide Dimethyl p-toluidine Benzosulfimide Sodium salt of ethyl and di-n-tetraacetic acid 2,2-methylene bis- (4-methyl-b-tert-butyl) phenol 0.20-0.56 0.21-0.60 0.01-0.30 0.01-0.05 0.01-0.05 table 2