UA64241A - A plastic lubricant for the boring tool - Google Patents

Abstract

A plastic lubricant for the boring tool comprises petroleum lubricant, which is thickened with calcium soap of acetic and stearic acids, and stearox, non-ionogenic surface-active substance.

Description

Description of the invention

The invention relates to mining, in particular, to lubricants that are applied to coring pipes. 2 A well-known plastic lubricant KAVS for drilling tools |1), which is applied, in particular, to the inner surface of the core receiving tube to reduce its wear, as well as to reduce wedging and abrasion of the core.

The product includes nigrol, bitumen, rosin and other components. The shortcomings of the lubricant include the non-technological application, since it needs to be heated to a temperature of 30-50 for application to the pipe; in addition, the lubricant reduces the friction forces only at the contact of the core with the pipe, without reducing the friction forces during the interaction of individual pieces of the core with each other, that is, the wear of the core remains significant.

Complex calcium lubricant (kSa-lubricant) |2| is the closest to the claimed one based on petroleum lubricant thickened with complex compounds (soaps) of high-molecular (stearic) and low-molecular (acetic) fatty acids (prototype). KCa-lubricant has a low cost: at the level of solidol, technological in application, as it does not require heating, however, like KAVS, kCa-lubricant does not reduce the forces of 12 friction when the core fragments interact with each other, which determines its insufficient efficiency.

The task of the invention is to create a new plastic lubricant that provides maximum protection of the core receiving tube and the core, immersed in the washing liquid, from abrasion.

The task is solved by the fact that the oil lubricant is thickened with a complex calcium soap of acetic and stearic fatty acids, and thus the synthesized plastic lubricant is provided with the ability to emulsify in water due to the use of a nonionic surfactant (surfactant) stearox.

The ingredients are taken in the following ratios, by weight: 90%: complex calcium soap of acetic and stearic acids (the ratio of acetic and stearic acids by weight is from 1:3 to 1:5) 15-30 stearox 20-25 oil lubricant the rest

In order to obtain a plastic lubricant, oil lubricant and complex calcium soap of acetic and stearic acids are loaded into the reactor, while stirring, the temperature of the mixture slowly rises to 175-180" and - it is kept at this temperature for 1 hour, after which the temperature in the reactor drops to 80-907С, " Stearox is loaded and the mixture is further stirred for 20-300 minutes. The temperature in the reactor is lowered to 30-35", and during stirring, the final SM product obtained using the described technology is poured into a metal container, where it cools down to ambient temperature. "

The proposed lubricant not only reduces the frictional forces at the contact of the core with the core-receiving tube, but also ensures a reduction of the frictional forces during the interaction of individual core fragments with each other, which is associated with (Ce) gradual emulsification of the lubricant in the washing liquid (water) and the formation of an emulsion, that can lubricate.

Thus, the increased effectiveness of the lubricant as a whole is determined.

Example. Possible compositions of the proposed lubricant are given in Table 1. « 4 2 s. that 4518 petroleum mastloy 00001111 (22)

A higher content of complex soap and a lower content of stearox (example 2) determines the increased viscosity of the lubricant; this product is intended for application to the inner surface of a single column pipe, since in this case only the viscous lubricant will not be washed away during the flight under the influence of the flow of flushing fluid (3-5

HOURS). f When the concentration of complex soap is reduced and the concentration of stearox is increased (example 1), the viscosity of the lubricant decreases. Lubricant with reduced viscosity quickly creates a concentrated emulsion and provides reliable protection of the core from abrasion. This lubricant is used during its continuous delivery to the core receiving tube by special lubrication devices and for application to the inner surface

The core receiving pipe of a double-column projectile, when the flow of flushing fluid is directed into the annular gap between the pipes and does not wash away the lubricant.

P» The specified lubricant compositions were tested in comparison with the known kSa-lubricant based on petroleum lubricant thickened with 2695 complex calcium soap (prototype). The test results are presented in Table 2. in

Mo p/p Indicators oPyuyunene Lubricant test method 1 2 bo 1 Shear strength limit at 202C, gs/cm2 5-12 20-30 25-30 GOST 7143-73 -Д-

2 Coefficients of steel-rock friction when applying lubricant 0.1 0.1-0.15 0.45-0.5 Machine friction samples that rub in an aqueous environment MTP ZI 3 Coefficients of friction steel-rock in an emulsion environment by 0.1-0.15| 0.15 (0.54-0.56 (does not form an emulsion based on lubricants)

Based on the analysis of tabular data, it was established that the use of a less viscous lubricant (example 1) provides a reduction in friction forces by 5-6 times, a more viscous lubricant (example 2) reduces friction forces by 4-6 times; the use of standard kSa-lubricant determines a slight decrease in frictional forces: by 8-20905.

Samples of the proposed lubricant when added to the washing liquid (water) form an emulsion that reduces the 70 friction force by 4-6 times; basic kSa-lubricant does not form an emulsion, accordingly, the washing liquid, having no lubricating capacity, does not reduce frictional forces.

Additionally, it was established that in addition to improved lubricating properties, the proposed lubricant has important qualities: it does not harden during storage, as happens with kSa lubricants (21), accordingly, its properties do not deteriorate, in particular, adhesion to metal does not decrease.

Sources of information 1. Handbook of the engineer on drilling geological exploration wells: In 2 volumes. Under the general editorship of Prof.

E.A. Kozlovsky - Volume 2. - M.: Nedra. 1964. 437p. 2. Sinitsyn V.V. Selection and use of plastic lubricants. 2nd ed., trans. and additional M., "Chemistry", 1974.

Claims (1)

The formula of the invention is a plastic lubricant for a drilling tool, which includes petroleum lubricant thickened with a complex calcium soap of acetic and stearic acids, which is distinguished by the fact that it additionally includes a non-ionic surface-active substance stearox, with the following ratio of components, wt. 90: « complex calcium soap of acetic and stearic acids (the ratio of acetic and stearic acids by weight from 1:3 to 1:5) 15-30 « stearox 20-25 oil lubricant the rest. se "Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2004, M 2, 15.02.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - and? (о) ЧК» име) ЧК» -' 60 b5