Highly Wear-Resistant Plant Genetic Lubricant Oil Additive, Preparation Method and Application Thereof

Abstract

A highly wear-resistant plant genetic lubricant oil additive, a preparation method and an application thereof are disclosed. The additive includes 90-97% of a plant base oil and 3-10% of an aerogel. The plant base oil is prepared from a mixed plant oil of soybean oil, rapeseed oil, sesame oil, peanut oil, olive oil, castor seed oil, salad oil, sunflower seed oil and tung oil. The highly wear-resistant plant genetic lubricant oil additive is added to various lubricant oils for being used to devices, and a colloidal substance is generated after the devices are driven and heat is generated, so that the lubricant oils are firmly adhered to the surface of components. The lubricant oil additive not only has characteristics of high abrasion resistance, high and low temperature resistance, and oxidation resistance, but also the used lubricant oil can be regenerated and recycled after being recovered and filtered.

Claims

1. A highly wear-resistant plant genetic lubricant oil additive, which comprises by volume percentage: 92-97% of a plant base oil prepared from a mixed plant oil of soybean oil, rapeseed oil, sesame oil, peanut oil, olive oil, castor seed oil, salad oil, sunflower seed oil and tung oil; and 3-8% of an aerogel.

2. The highly wear-resistant plant genetic lubricant oil additive, as recited in claim 1, wherein the aerogel is a porous material with a pore diameter in a range of 50-150 nm.

3. The highly wear-resistant plant genetic lubricant oil additive, as recited in claim 1, wherein the mixed plant oil comprises 5-15% of the soybean oil, 5-15% of the rapeseed oil, 5-15% of the sesame oil, 5-20% of the peanut oil, 5-15% of the olive oil, 5-20% of the castor seed oil, 5-15% of the salad oil, 5-20% of the sunflower seed oil, and 5-8% of the tung oil by volume percentage.

4. The highly wear-resistant plant genetic lubricant oil additive, as recited in claim 1, wherein the mixed plant oil is prepared by a method comprising steps of: (1) preparing a synthetic plant oil, which comprises: pouring the soybean oil, the rapeseed oil, the sesame oil, the peanut oil, the olive oil, the castor seed oil, the salad oil and the sunflower seed oil with the volume percentage into a dispersing machine, stirring for 8-12 min at a rotational speed of 1000 rpm, and then stirring for 8-12 min at a rotational speed of 2000 rpm, and then stirring for 12-20 min at a rotational speed of 3000 rpm for sufficiently evenly stirring, and obtaining the synthetic plant oil; (2) performing a first reaction, which comprises: adding the ting oil with the volume percentage to the synthetic plant oil obtained by the step (1), heating to 75-85 C., dispersing and stirring at the rotational speed of 3000 rpm for 25-35 min, and obtaining a first reacted plant oil; (3) performing a first freeze, which comprises: pouring the first reacted plant oil into a container, placing into a cold storage with a temperature in a range of 55 C.-65 C. after naturally cooling, freezing for 70-75 h, and obtaining a first frozen plant oil; (4) performing a second reaction, which comprises: pouring into the dispersing machine after unfreezing the first frozen plant oil, heating to 45-55 C., stirring at the rotational speed of 2000 rpm for 25-35 min, and obtaining a second reacted plant oil; and (5) performing a second freeze, which comprises: pouring the second reacted plant oil into an iron drum, placing into the cold storage with a temperature in a range of 75 C.-85 C. after naturally cooling, freezing for 140-145 h again, and obtaining the mixed plant oil.

5. The highly wear-resistant plant genetic lubricant oil additive, as recited in claim 1, wherein the plant base oil is prepared by a method comprising steps of placing into a sealed reactor with at least one exhaust pipe after unfreezing the mixed plant oil, heating to 790-810 C., placing a vessel at a joint of the exhaust pipe, and discharging oil fume into the vessel, wherein the oil fume is the plant base oil.

6. The highly wear-resistant plant genetic lubricant oil additive, as recited in claim 5, wherein there are two exhaust pipes both of which are 70-90 cm away from ground.

7. A preparation method of a highly wear-resistant plant genetic lubricant oil additive, wherein: the plant genetic lubricant oil additive comprises by volume percentage: 92-97% of a plant base oil prepared from a mixed plant oil of soybean oil, rapeseed oil, sesame oil, peanut oil, olive oil, castor seed oil, salad oil, sunflower seed oil and tung oil; and 3-8% of an aerogel; the preparation method comprises steps of: (A) performing an extraction after placing the plant base oil into a gene extraction tank, and obtaining a plant gene oil; (B) placing the plant gene oil obtained by the step (A) into a dispersing machine, adding the aerogel with the volume percentage to the plant gene oil, heating to 90-110 C., stirring at a rotational speed of 3000 rpm for 55-65 min, and obtaining an intermediate product; (C) placing into a cold storage with a temperature in a range of 75 C.-85 C. after naturally cooling the intermediate product obtained by the step (B), freezing for 140-145 h, and obtaining a frozen product; (D) taking out the frozen product obtained by the step rally unfreezing, placing into the dispersing machine, heating to 175-185 C., stirring at a rotational speed of 1000 rpm for 8-12 min, and then stirring at a rotational speed of 2000 rpm for 15-25 min, and then stifling at the rotational speed of 3000 rpm for 25-35 min, and obtaining a stirred product; and (E) canning after taking out the stirred product, and obtaining the highly wear-resistant plant genetic lubricant oil additive.

8. (canceled)

9. The preparation method, as recited in claim 7, wherein: the plant base oil is prepared by a method comprising steps of placing into a sealed reactor with at least one exhaust pipe after unfreezing the mixed plant oil, heating to 790-810 C., placing a vessel at a joint of the exhaust pipe, and discharging oil fume into the vessel, wherein the oil fume is the plant base oil.

10. The preparation method, as recited in claim 9, wherein the mixed plant oil is prepared by a method comprising steps of: (1) preparing a synthetic plant oil, which comprises: pouring the soybean oil, the rapeseed oil, the sesame oil, the peanut oil, the olive oil, the castor seed oil, the salad oil and the sunflower seed oil with the volume percentage into the dispersing machine, stirring for 8-12 min at the rotational speed of 1000 rpm, and then stirring for 8-12 min at the rotational speed of 2000 rpm, and then stirring for 12-20 min at the rotational speed of 3000 rpm for sufficiently evenly stirring, and obtaining the synthetic plant oil; (2) performing a first reaction, which comprises: adding the tong oil with the volume percentage to the synthetic plant oil obtained by the step (1), heating to 75-85 C., dispersing and stirring at the rotational speed of 3000 rpm for 25-35 min, and obtaining a first reacted plant oil; (3) performing a first freeze, which comprises: pouring the first reacted plant oil into a container, placing into the cold storage with a temperature in a range of 55 C.-65 C. after naturally cooling, freezing for 70-75 h, and obtaining a first frozen plant oil; (4) performing a second reaction, which comprises: pouring into the dispersing machine after unfreezing the first frozen plant oil, heating to 45-55 C., stirring at the rotational speed of 2000 rpm for 25-35 min, and obtaining a second reacted plant oil; and (5) performing a second freeze, which comprises: pouring the second reacted plant oil into an iron drum, placing into the cold storage with the temperature in the range of 75 C.-85 C. after naturally cooling, freezing for 140-145 h again, and obtaining the mixed plant oil.

11. A lubricant oil for machinery and transportation, which comprises a highly wear-resistant plant genetic lubricant additive, wherein the plant genetic lubricant oil additive comprises by volume percentage: 92-97% of a plant base oil prepared from a mixed plant oil of soybean oil, rapeseed oil, sesame oil, peanut oil, olive oil, castor seed oil, salad oil, sunflower seed oil and tong oil; and 3-8% of an aerogel.

12. The lubricant oil, as recited in claim 11, wherein: the aerogel is a porous material with a pore diameter in a range of 50-150 nm.

13. The lubricant oil, as recited in claim 12, wherein the mixed plant oil comprises 5-15% of the soybean oil, 5-15% of the rapeseed oil, 5-15% of the sesame oil, 5-20% of the peanut oil, 5-15% of the olive oil. 5-20% of the castor seed oil, 5-15% of the salad oil, 5-20% of the sunflower seed oil, and 5-8% of the tung oil by volume percentage.

Description

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

[0029] The present invention is further described in detail in combination with specific embodiments as follows, so as to help those skilled in the art to understand the present invention.

First Embodiment

[0030] A highly wear-resistant plant genetic lubricant oil additive, calculated by volume percent, comprises 15% of soybean oil, 15% of rapeseed oil, 15% of sesame oil, 5% of peanut oil, 15% of olive oil, 5% of castor seed oil, 15% of salad oil, 5% of sunflower seed oil, 7% of tong oil and 3% of aerogel, wherein the aerogel is a porous material with a pore diameter of 50 nm.

[0031] A preparation method of the highly wear-resistant plant genetic lubricant oil additive comprises steps of:

[0032] (S1) preparing a mixed plant oil, which comprises:

[0033] (1) preparing a synthetic plant oil, which comprises: pouring the soybean oil, the rapeseed oil, the sesame oil, the peanut oil, the olive oil, the castor seed oil, the salad oil and the sunflower seed oil with the volume percentage into a dispersing machine, stirring for 8 min at a rotational speed of 1000 rpm, and then stirring for 8 min at a rotational speed of 2000 rpm, and then stirring for 12 min at a rotational speed of 3000 rpm for sufficiently evenly stirring, and obtaining the synthetic plant oil;

[0034] (2) performing a first reaction, which comprises: adding the tung oil with the volume percentage to the synthetic plant oil obtained by the step (1), heating to 75 C., dispersing and stirring at the rotational speed of 3000 rpm for 25 min, and obtaining a first reacted plant oil;

[0035] (3) performing a first freeze, which comprises: pouring the first reacted plant oil into a container, placing into a cold storage with a temperature of 55 C. after naturally cooling, freezing for 70 h, and obtaining a first frozen plant oil;

[0036] (4) performing a second reaction, which comprises: pouring into the dispersing machine after unfreezing the first frozen plant oil, heating to 45 C., stirring at the rotational speed of 2000 rpm for 25 min, and obtaining a second reacted plant oil; and

[0037] (5) performing a second freeze, which comprises: pouring the second reacted plant oil into an iron drum, placing into the cold storage with a temperature of 75 C. after naturally cooling, freezing for 140 h again, and obtaining the mixed plant oil;

[0038] (S2) preparing a plant base oil, which comprises: placing into a sealed reactor with two exhaust pipes (both of which are 70 cm away from ground) after unfreezing the mixed plant oil, heating to 790 C., placing a vessel at a joint of the two exhaust pipes, and discharging oil fume into the vessel, wherein the oil fume is the plant base oil; and

[0039] (S3) obtaining the highly wear-resistant plant genetic lubricant oil additive, which comprises:

[0040] (A) performing an extraction after placing the plant base oil into a gene extraction tank, and obtaining a plant gene oil, wherein the extraction is performed with a conventional solvent; the step (A) specifically comprises: placing the plant base oil into the gene extraction tank, contacting the plant base oil with the solvent, and then the plant base oil entering an evaporation tower after being extracted, evaporating the solvent with a low boiling point after heating, and then evaporating residual solvent after the plant base oil entering an essential oil evaporator, and obtaining the plant gene oil;

[0041] (B) placing the plant gene oil obtained by the step (A) into the dispersing machine, adding the aerogel with the volume percentage to the plant gene oil, heating to 90 C., stirring at the rotational speed of 3000 rpm for 55 min, and obtaining an intermediate product;

[0042] (C) placing into the cold storage with a temperature of 75 C. after naturally cooling the intermediate product obtained by the step (B), freezing for 140 h, and obtaining a frozen product;

[0043] (D) taking out the frozen product obtained by the step (C), naturally unfreezing, placing into the dispersing machine, heating to 175 C., stirring at the rotational speed of 1000 rpm for 8 min, and then stirring at the rotational speed of 2000 rpm for 15 min, and then stirring at the rotational speed of 3000 rpm for 25 min, and obtaining a stirred product; and

[0044] (E) canning after taking out the stirred product, so that the highly wear-resistant plant genetic lubricant oil additive is obtained.

Second Embodiment

[0045] A highly wear-resistant plant genetic lubricant oil additive, calculated by volume percent, comprises 20% of soybean oil, 10% of rapeseed oil, 10% of sesame oil, 10% of peanut oil, 10% of olive oil, 10% of castor seed oil, 10% of salad oil, 10% of sunflower seed oil, 5% of tung oil and 5% of aerogel, wherein the aerogel is a porous material with a pore diameter of 100 nm.

[0046] A preparation method of the highly wear-resistant plant genetic lubricant oil additive comprises steps of:

[0047] (S1) preparing a mixed plant oil, which comprises:

[0048] (1) preparing a synthetic plant oil, which comprises: pouring the soybean oil, the rapeseed oil, the sesame oil, the peanut oil, the olive oil, the castor seed oil, the salad oil and the sunflower seed oil with the volume percentage into a dispersing machine, stirring for 10 min at a rotational speed of 1000 rpm, and then stirring for 10 min at a rotational speed of 2000 rpm, and then stirring for 10 min at a rotational speed of 3000 rpm for sufficiently evenly stirring, and obtaining the synthetic plant oil;

[0049] (2) performing a first reaction, which comprises: adding the Lung oil with the volume percentage to the synthetic plant oil obtained by the step (1), heating to 80 C., dispersing and stiffing at the rotational speed of 3000 rpm for 30 min, and obtaining a first reacted plant oil;

[0050] (3) performing a first freeze, which comprises: pouring the first reacted plant oil into a container, placing into a cold storage with a temperature of 60 C. after naturally cooling, freezing for 74 h, and obtaining a first frozen plant oil;

[0051] (4) performing a second reaction, which comprises: pouring into the dispersing machine after unfreezing the first frozen plant oil, heating to 50 C., stirring at the rotational speed of 2000 rpm for 30 min, and obtaining a second reacted plant oil; and

[0052] (5) performing a second freeze, which comprises: pouring the second reacted plant oil into an iron drum, placing into the cold storage with a temperature of 80 C. after naturally cooling, freezing for 144 h again, and obtaining the mixed plant oil;

[0053] (S2) preparing a plant base oil, which is the same as the first embodiment, wherein differences are that the two exhaust pipes are 80 cm away from ground and heating to 800 C.; and

[0054] (S3) obtaining the highly wear-resistant plant genetic lubricant oil additive, wherein the step (A) is the same as that of the first embodiment, and differences are that:

[0055] (B) placing the plant gene oil obtained by the step (A) into the dispersing machine, adding the aerogel with the volume percentage to the plant gene oil, heating to 100 C., stirring at the rotational speed of 3000 rpm for 60 min, and obtaining an intermediate product;

[0056] (C) placing into the cold storage with a temperature of 80 C. after naturally cooling the intermediate product obtained by the step (B), freezing for 144 h, and obtaining a frozen product;

[0057] (D) taking out the frozen product obtained by the step (C), naturally unfreezing, placing into the dispersing machine, heating to 180 C., stirring at the rotational speed of 1000 rpm for 10 min, and then stirring at the rotational speed of 2000 rpm for 20 min, and then stirring at the rotational speed of 3000 rpm for 30 min, and obtaining a stirred product; and

[0058] (E) canning after taking out the stirred product, so that the highly wear-resistant plant genetic lubricant oil additive is obtained.

Third Embodiment

[0059] A highly wear-resistant plant genetic lubricant oil additive, calculated by volume percent, comprises 5% of soybean oil, 5% of rapeseed oil, 5% of sesame oil, 20% of peanut oil, 5% of olive oil, 20% of castor seed oil, 5% of salad oil, 20% of sunflower seed oil, 5% of ting oil and 10% of aerogel, wherein the aerogel is a porous material with a pore diameter of 150 nm.

[0060] A preparation method of the highly wear-resistant plant genetic lubricant oil additive comprises steps of:

[0061] (S1) preparing a mixed plant oil, which comprises:

[0062] (1) preparing a synthetic plant oil, which comprises: pouring the soybean oil, the rapeseed oil, the sesame oil, the peanut oil, the olive oil, the castor seed oil, the salad oil and the sunflower seed oil with the volume percentage into a dispersing machine, stirring for 12 min at a rotational speed of 1000 rpm, and then stirring for 12 min at a rotational speed of 2000 rpm, and then stirring for 20 min at a rotational speed of 3000 rpm for sufficiently evenly stirring, and obtaining the synthetic plant oil;

[0063] (2) performing a first reaction, which comprises: adding the Lung oil with the volume percentage to the synthetic plant oil obtained by the step (1), heating to 85 C., dispersing and stiffing at the rotational speed of 3000 rpm for 35 min, and obtaining a first reacted plant oil;

[0064] (3) performing a first freeze, which comprises: pouring the first reacted plant oil into a container, placing into a cold storage with a temperature of 65 C. after naturally cooling, freezing for 75 h, and obtaining a first frozen plant oil;

[0065] (4) performing a second reaction, which comprises: pouring into the dispersing machine after unfreezing the first frozen plant oil, heating to 55 C., stirring at the rotational speed of 2000 rpm for 35 min, and obtaining a second reacted plant oil; and

[0066] (5) performing a second freeze, which comprises: pouring the second reacted plant oil into an iron drum, placing into the cold storage with a temperature of 85 C. after naturally cooling, freezing for 145 h again, and obtaining the mixed plant oil;

[0067] (S2) preparing a plant base oil, which is the same as the first embodiment, wherein differences are that the two exhaust pipes are 90 cm away from ground and heating to 810 C.; and

[0068] (S3) obtaining the highly wear-resistant plant genetic lubricant oil additive, wherein the step (A) is the same as that of the first embodiment, and differences are that:

[0069] (B) placing the plant gene oil obtained by the step (A) into the dispersing machine, adding the aerogel with the volume percentage to the plant gene oil, heating to 110 C., stirring at the rotational speed of 3000 rpm for 65 min, and obtaining an intermediate product;

[0070] (C) placing into the cold storage with a temperature of 85 C. after naturally cooling the intermediate product obtained by the step (B), freezing for 145 h, and obtaining a frozen product;

[0071] (D) taking out the frozen product obtained by the step (C), naturally unfreezing, placing into the dispersing machine, heating to 185 C., stirring at the rotational speed of 1000 rpm for 12 min, and then stirring at the rotational speed of 2000 rpm for 25 min, and then stirring at the rotational speed of 3000 rpm for 35 min, and obtaining a stirred product; and

[0072] (E) canning after taking out the stirred product, so that the highly wear-resistant plant genetic lubricant oil additive is obtained.

[0073] The above embodiments are merely preferred embodiments of the present invention, and are not intended to limit the protective scope of the present invention. Therefore, any equivalent changes or modifications made based on the features and principles described in the claims of the present invention should be included in the protective scope defined by the claims of the present invention.

[0074] Through testing, the physical and chemical properties of the present invention are as follows.

[0075] Kinematic viscosity (100 C.): 13.94 m.sup.2/s (detection method is GB/T 265-1988(2004));

[0076] High shear viscosity at high temperature (150 C.): 3.74 mPa.Math.s (detection method is SH/T 0703-2001(2007));

[0077] Dynamic viscosity at low temperature (20 C.): 2990 mPa.Math.s (detection method is GB/T 06538-2010);

[0078] Pumping viscosity at low temperature (2.5 C., no yield stress): 11200 mPa.Math.s (detection method is NB/SH/T 0562-2013);

[0079] Pour point: 36 C. (detection method is GB/TO 3535-2006);

[0080] Foamy (huddle tendency/foam stability).

[0081] 24 C.: 5/0 ml/ml, 93.5 C.: 20/0 ml/ml, latter 24 C.: 5/0 ml/ml;

[0082] Flash point (opening): 226 C. (GB/T 3536-2008);

[0083] Intensity (20 C.): 874.2 kg/m.sup.2 (SH/T 0604-2000);

[0084] Carrying capacity (Four-ball method): [0085] Maximum no bite load P: 981 (100) N (Kgf); [0086] Sintering load PD: 3089 (315) N (Kgf); [0087] Comprehensive wear index ZMZ: 567 (57.78).

[0088] Using the same test method, the highly wear-resistant plant genic lubricant oil additive provided by the present invention is respectively tested at 600 C. and 60 C., and its physical and chemical properties meet relevant standards.