CN113684084A - Functional lubricating oil and preparation method thereof - Google Patents

Abstract

The invention provides functional lubricating oil, and relates to the technical field of lubrication. The functional lubricating oil comprises the following raw materials in parts by weight: 29.2-29.8% of synthetic lubricating oil, 37.6-38.2% of plasticizer, 17.3-17.9% of chlorinated paraffin, 3.5-4.1% of oiliness agent, 2.6-3.2% of oiliness agent, 2.7-3.3% of antifriction agent, 4.2-4.8% of detergent, 0.2-0.5% of antirust agent, 0.3-0.6% of antioxidant and 0.01-1.5% of metal deactivator. The chlorinated fatty acid methyl ester is used as a chlorine-containing extreme pressure anti-wear agent and chlorinated paraffin is used as a chlorine-series extreme pressure anti-wear agent, so that the anti-wear performance of the lubricating oil is enhanced, the chlorinated fatty acid methyl ester, the epoxy fatty acid methyl ester and the phthalic diester are mixed to form a plasticizer, the stability of the lubricating oil is effectively improved, and the vegetable oil and the epoxy fatty acid methyl ester are mixed to form an oiliness agent, so that the friction and the wear are effectively reduced, the service life of the functional lubricating oil is effectively prolonged, and the lubricating oil is worthy of wide popularization.

Description

Functional lubricating oil and preparation method thereof

Technical Field

The invention relates to the technical field of lubrication, in particular to functional lubricating oil and a preparation method thereof.

Background

The lubrication, an ancient and novel topic developed almost with the growth of the history of human civilization, has been over 400 years since it was defined by finch in the fifteen th century, however, due to low productivity, the lubrication as an edge-crossing basic technology has not been recognized and valued for a long history, and only recently, especially the petrochemical industry, has been rapidly developed, but the application of the oil, vegetable oil or grease, or mineral oil plus various additives, is dependent on the oil film strength formed by the oil in the friction pair to achieve lubrication and friction reduction, and is essentially sliding friction.

In the functional lubricating oil existing at the present stage, the service life of the lubricating oil is basically judged according to the anti-wear performance, stability, anti-friction performance and wear performance of the lubricating oil, so how to effectively improve the anti-wear performance, stability, anti-friction performance and wear performance of the lubricating oil becomes the key for prolonging the service life of the lubricating oil.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a functional lubricating oil, which solves the problems of insufficient wear resistance, low stability and insufficient friction resistance and wear resistance.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a functional lubricating oil comprises the following raw materials in parts by weight: 29.2-29.8% of synthetic lubricating oil, 37.6-38.2% of an antiwear agent, 17.3-17.9% of chlorinated paraffin, 3.5-4.1% of a plasticizer, 2.6-3.2% of an oiliness agent, 2.7-3.3% of a friction reducing agent, 4.2-4.8% of a detergent, 0.2-0.5% of an antirust agent, 0.3-0.6% of an antioxidant and 0.01-1.5% of a metal deactivator.

Preferably, the antiwear agent is chloro fatty acid methyl ester.

Preferably, the oiliness agent is vegetable oil.

Preferably, the friction reducer is a phthalic diester.

Preferably, the detergent is a high base number synthetic calcium sulfonate (T106).

Preferably, the antirust agent is dodecenylsuccinic acid.

Preferably, the plasticizer is epoxidized fatty acid methyl ester.

Preferably, the preparation method of the functional lubricating oil comprises the following steps:

s1, base oil treatment

The synthetic lubricating oil with 150SN base oil as a main material is pumped into a blending kettle through an oil pump, in order to prevent the synthetic lubricating oil from standing, the synthetic lubricating oil is preheated firstly, and is fully stirred in the blending kettle for 30-40 min;

s2, adding an oiliness agent

Pumping an oiliness agent taking vegetable oil as a main material into a blending kettle at a stable speed through an oil pump, simultaneously setting the stability of the blending kettle at 55-60 ℃, continuously stirring, and keeping the temperature constant and fully stirring for 15-20 min after all the vegetable oil is pumped into the blending kettle;

s3, adding a plasticizer

Sequentially adding epoxy fatty acid methyl ester and half of chloro fatty acid methyl ester into a blending kettle, and fully stirring for 10-13 min at the constant temperature of 55-60 ℃;

s4, adding an antiwear agent

Sequentially adding chlorinated paraffin and the residual chlorinated fatty acid methyl ester into a blending kettle, and fully stirring for 30-35 min at the constant temperature of 55-60 ℃;

s5, adding other additives

Sequentially adding an anti-wear agent taking phthalate diester as a main material, a detergent taking high-base-number synthetic calcium sulfonate (T106) as a main material, an antioxidant taking antioxidant 264 as a main material and a metal deactivator into a blending kettle, raising the temperature in the blending kettle to 60-65 ℃, and fully stirring for 1.5-2 hours.

(III) advantageous effects

The invention provides a functional lubricating oil. The method has the following beneficial effects:

1. according to the invention, the chlorinated fatty acid methyl ester is mixed with the chlorinated extreme pressure antiwear agent and the chlorinated paraffin is mixed with the chlorinated paraffin as the chlorine extreme pressure antiwear agent, so that the antiwear performance of the lubricating oil is effectively enhanced.

2. According to the invention, the chlorinated fatty acid methyl ester, the epoxy fatty acid methyl ester and the phthalic acid diester are mixed to form the plasticizer, so that the stability of the lubricating oil is effectively improved.

3. According to the invention, vegetable oil and epoxy fatty acid methyl ester are mixed into the oiliness agent, so that friction and abrasion are effectively reduced, and the friction and abrasion resistance of the lubricating oil is enhanced.

4. The invention effectively prolongs the service life of the lubricating oil by improving the wear resistance, stability, friction resistance and wear resistance.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

the embodiment of the invention provides functional lubricating oil which comprises the following raw materials in parts by weight: 29.8% of synthetic lubricating oil, 38.2% of an antiwear agent, 17.9% of chlorinated paraffin, 4.1% of a plasticizer, 3.2% of an oiliness agent, 3.3% of an anti-wear agent, 4.8% of a detergent, 0.5% of a rust inhibitor, 0.6% of an antioxidant and 1.5% of a metal deactivator, wherein the metal deactivator has the effect of promoting catalytic oxidation.

The antiwear agent is chlorinated fatty acid methyl ester, the chlorinated fatty acid methyl ester is prepared by chlorination reaction and methoxylation reaction of fatty acid methyl ester, chlorine and methanol, the chlorinated fatty acid methyl ester detected in the sample has high chlorination degree and low methoxylation degree, the chlorinated fatty acid methyl ester with the chlorine content being more than or equal to 25 percent is the chlorinated fatty acid methyl ester, the chlorinated fatty acid methyl ester is the chlorine-containing extreme pressure antiwear agent, and the chlorinated paraffin and the chlorine-containing extreme pressure antiwear agent are mixed, so that the antiwear performance of the lubricating oil is effectively improved.

The oiliness agent is vegetable oil, the main material of the vegetable oil is cottonseed oil, the vegetable oil and the epoxidized fatty acid methyl ester can be used as the oiliness agent, the mixture of the vegetable oil and the epoxidized fatty acid methyl ester has strong affinity to metal, and the metal is adsorbed on a friction surface through polar groups to form a molecular oriented adsorption film, so that the metal is prevented from being mutually contacted, and friction and abrasion are reduced.

The anti-friction agent is phthalic diester, and the phthalic diester is used as the anti-friction agent and is matched with the vegetable oil and the epoxy fatty acid methyl ester, so that the friction resistance is effectively reduced, and the abrasion is prevented.

The detergent is high-base-number synthetic calcium sulfonate (T106), and the high-base-number synthetic calcium sulfonate (T106) has excellent high-temperature detergency and acid neutralization capacity, and has good antirust performance and higher alkali storage capacity.

The antirust agent is dodecenylsuccinic acid, and the antirust agent T76 is adopted as the antirust agent, so that the metal is prevented from being rusted in the using process.

The plasticizer is epoxy fatty acid methyl ester, the epoxy fatty acid methyl ester is used as the plasticizer, and the chlorinated fatty acid methyl ester and the phthalic acid have the plasticizing effect, and are matched for use, so that the stability of the lubricating oil is effectively improved, and the epoxy fatty acid methyl ester has good lubricating property, can be used together with vegetable oil, and enhances the lubricating property of the lubricating oil.

A preparation method of a functional lubricating oil comprises the following steps:

s1, base oil treatment

The synthetic lubricating oil with 150SN base oil as a main material is pumped into a blending kettle through an oil pump, in order to prevent the synthetic lubricating oil from standing, the synthetic lubricating oil is preheated firstly and is fully stirred in the blending kettle for 40 min;

s2, adding an oiliness agent

Pumping an oiliness agent taking vegetable oil as a main material into a blending kettle at a stable speed through an oil pump, simultaneously setting the stability of the blending kettle at 60 ℃, continuously stirring, and keeping the temperature constant and fully stirring for 20min after all the vegetable oil is pumped into the blending kettle;

s3, adding a plasticizer

Sequentially adding epoxy fatty acid methyl ester and half of chloro fatty acid methyl ester into a blending kettle, and fully stirring for 13min at a constant temperature of 60 ℃;

s4, adding an antiwear agent

Sequentially adding chlorinated paraffin and the rest chlorinated fatty acid methyl ester 3.5 into a blending kettle, and fully stirring for 35min at the constant temperature of 60 ℃;

s5, adding other additives

Sequentially adding an anti-wear agent taking phthalate diester as a main material, a detergent taking high-base-number synthetic calcium sulfonate (T106) as a main material, an antioxidant taking antioxidant 264 as a main material and a metal deactivator into a blending kettle, raising the temperature in the blending kettle to 65 ℃, and fully stirring for 2 hours.

Example two:

the embodiment of the invention provides functional lubricating oil which comprises the following raw materials in parts by weight: 29.2% of synthetic lubricating oil, 37.6% of an antiwear agent, 17.3% of chlorinated paraffin, 3.5% of a plasticizer, 2.6% of an oiliness agent, 2.7% of an anti-wear agent, 4.2% of a detergent, 0.2% of a rust inhibitor, 0.3% of an antioxidant and 0.01% of a metal deactivator, wherein the metal deactivator has the effect of promoting catalytic oxidation.

The antiwear agent is chlorinated fatty acid methyl ester, the chlorinated fatty acid methyl ester is prepared by chlorination reaction and methoxylation reaction of fatty acid methyl ester, chlorine and methanol, the chlorinated fatty acid methyl ester detected in the sample has high chlorination degree and low methoxylation degree, the chlorinated fatty acid methyl ester with the chlorine content being more than or equal to 25 percent is the chlorinated fatty acid methyl ester, the chlorinated fatty acid methyl ester is the chlorine-containing extreme pressure antiwear agent, and the chlorinated paraffin and the chlorine-containing extreme pressure antiwear agent are mixed, so that the antiwear performance of the lubricating oil is effectively improved.

The oiliness agent is vegetable oil, the main material of the vegetable oil is cottonseed oil, the vegetable oil and the epoxidized fatty acid methyl ester can be used as the oiliness agent, the mixture of the vegetable oil and the epoxidized fatty acid methyl ester has strong affinity to metal, and the metal is adsorbed on a friction surface through polar groups to form a molecular oriented adsorption film, so that the metal is prevented from being mutually contacted, and friction and abrasion are reduced.

The anti-friction agent is phthalic diester, and the phthalic diester is used as the anti-friction agent and is matched with the vegetable oil and the epoxy fatty acid methyl ester, so that the friction resistance is effectively reduced, and the abrasion is prevented.

The detergent is high-base-number synthetic calcium sulfonate (T106), and the high-base-number synthetic calcium sulfonate (T106) has excellent high-temperature detergency and acid neutralization capacity, and has good antirust performance and higher alkali storage capacity.

The antirust agent is dodecenylsuccinic acid, and the antirust agent T76 is adopted as the antirust agent, so that the metal is prevented from being rusted in the using process.

The plasticizer is epoxy fatty acid methyl ester, the epoxy fatty acid methyl ester is used as the plasticizer, and the chloro-substituted fatty acid methyl ester and the phthalic acid have the plasticizing effect, and are matched with each other for use, so that the stability of the lubricating oil is effectively improved, and the epoxy fatty acid methyl ester has good lubricating property, can be used together with vegetable oil, and enhances the lubricating property of the lubricating oil.

A preparation method of a functional lubricating oil comprises the following steps:

s1, base oil treatment

The synthetic lubricating oil with 150SN base oil as a main material is pumped into a blending kettle through an oil pump, in order to prevent the synthetic lubricating oil from standing, the synthetic lubricating oil is preheated firstly and is fully stirred in the blending kettle for 30 min;

s2, adding an oiliness agent

Pumping an oiliness agent taking vegetable oil as a main material into a blending kettle at a stable speed through an oil pump, simultaneously setting the stability of the blending kettle at 55 ℃, continuously stirring, and keeping the temperature constant and fully stirring for 15min after all the vegetable oil is pumped into the blending kettle;

s3, adding a plasticizer

Sequentially adding epoxy fatty acid methyl ester and half of chloro fatty acid methyl ester into a blending kettle, and fully stirring for 10min at the constant temperature of 55 ℃;

s4, adding an antiwear agent

Sequentially adding chlorinated paraffin and the residual chlorinated fatty acid methyl ester into a blending kettle, and fully stirring for 30min at the constant temperature of 55 ℃;

s5, adding other additives

Sequentially adding an anti-wear agent taking phthalate diester as a main material, a detergent taking high-base-number synthetic calcium sulfonate (T106) as a main material, an antioxidant taking antioxidant 264 as a main material and a metal deactivator into a blending kettle, raising the temperature in the blending kettle to 60 ℃, and fully stirring for 1.5 hours.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. A functional lubricating oil characterized by: the feed comprises the following raw materials in parts by weight: 29.2-29.8% of synthetic lubricating oil, 37.6-38.2% of an antiwear agent, 17.3-17.9% of chlorinated paraffin, 3.5-4.1% of a plasticizer, 2.6-3.2% of an oiliness agent, 2.7-3.3% of a friction reducing agent, 4.2-4.8% of a detergent, 0.2-0.5% of an antirust agent, 0.3-0.6% of an antioxidant and 0.01-1.5% of a metal deactivator.

2. The functional lubricating oil according to claim 1, characterized in that: the antiwear agent is chloro fatty acid methyl ester.

3. The functional lubricating oil according to claim 1, characterized in that: the oiliness agent is vegetable oil.

4. The functional lubricating oil according to claim 1, characterized in that: the antifriction agent is phthalic diester.

5. The functional lubricating oil according to claim 1, characterized in that: the detergent is high-base number synthetic calcium sulfonate (T106).

6. The functional lubricating oil according to claim 1, characterized in that: the antirust agent is dodecenylsuccinic acid.

7. The functional lubricating oil according to claim 1, characterized in that: the plasticizer is epoxy fatty acid methyl ester.

8. The method for preparing a functional lubricating oil according to claim 1, characterized in that: the method comprises the following steps:

s1, base oil treatment

The synthetic lubricating oil with 150SN base oil as a main material is pumped into a blending kettle through an oil pump, in order to prevent the synthetic lubricating oil from standing, the synthetic lubricating oil is preheated firstly, and is fully stirred in the blending kettle for 30-40 min;

s2, adding an oiliness agent

Pumping an oiliness agent taking vegetable oil as a main material into a blending kettle at a stable speed through an oil pump, simultaneously setting the stability of the blending kettle at 55-60 ℃, continuously stirring, and keeping the temperature constant and fully stirring for 15-20 min after all the vegetable oil is pumped into the blending kettle;

s3, adding a plasticizer

Sequentially adding epoxy fatty acid methyl ester and half of chloro fatty acid methyl ester into a blending kettle, and fully stirring for 10-13 min at the constant temperature of 55-60 ℃;

s4, adding an antiwear agent

Sequentially adding chlorinated paraffin and the residual chlorinated fatty acid methyl ester into a blending kettle, and fully stirring for 30-35 min at the constant temperature of 55-60 ℃;

s5, adding other additives

Sequentially adding an anti-wear agent taking phthalate diester as a main material, a detergent taking high-base-number synthetic calcium sulfonate (T106) as a main material, an antioxidant taking antioxidant 264 as a main material and a metal deactivator into a blending kettle, raising the temperature in the blending kettle to 60-65 ℃, and fully stirring for 1.5-2 hours.