CN103146464A - Cutting fluid for machining inner hole of range gear cylinder - Google Patents

Abstract

The invention relates to cutting fluid for machining an inner hole of a range gear cylinder. The cutting fluid is characterized by comprising components, by weight, of 50-55% of kerosene, 15-20% of soya-bean oil, 5-10% of oleic acid, 2-5% of 10# engine oil, 2-5% of antirust agent and 2-5% of surface active agent. The components are mixed to obtain the cutting fluid for machining the inner hole of the range gear cylinder. The cutting fluid solves a bottleneck problem of the cutting fluid for machining the range gear cylinder, solves the problem that cutting processing is high in requirements for cylinder surface quality according to a lean production principle and considering from a flow of a front-and-back process when the range gear cylinder is machined in mass, simultaneously improves durability (such as high cutter price, difficult cutter sharpening, long assembly and disassembly axially time and the like) of a cutter, simultaneously improves stability of product quality, reduces machining cost and improves reputation and market share of manufacturers.

Description

A kind of cutting fluid for the processing of range gear air cylinder body endoporus

Technical field

The invention belongs to mach cutting fluid, relate to a kind of cutting fluid for the processing of range gear air cylinder body endoporus.

Background technology

Cutting fluid is divided into water-insoluble (oil base) liquid and the large class of water-soluble (water base) liquid two by the oil product chemical constitution.Water base cutting fluid can be divided into emulsion, semi-synthetic cutting fluid and synthetic cutting fluid.

The difference of oil base cutting fluid and water-base cutting fluid:

The lubricity of oil base cutting fluid is better, and cooling performance is relatively poor.It is relative relatively poor that water-base cutting fluid and oil base cutting fluid are compared lubricity, and cooling performance is better.Cutting requires the oilness of cutting fluid to be eager to excel at a slow speed, and in general, cutting speed is used machining oil during lower than 30m/min.

Emulsion combines the oilness of oil and the fabulous cooling of rust-preventing characteristic and water, possesses simultaneously lubrication preferably, thereby the metal cutting of the high velocity, low pressure power that generates for large calorimetric is processed very effective.Compare with the oil base cutting fluid, the advantage of emulsion is larger thermal diffusivity, and cleaning, dilute with water use and the economy of bringing and the health that is conducive to the operator and safety and make them be happy to use.The advantage of chemosynthesis cutting fluid is economy, rapid heat dissipation, the strong and fabulous workpiece visibility of cleaning, is easy to the controlled working size, and its stability and anti-corrupt energy force rate emulsion are strong.Oilness is not good enough, and this will cause adhesion and the wearing and tearing of lathe movable part, and the thick residue that chemosynthesis stays can affect the motion of machine parts, also can make the faying surface of these parts produce corrosion.

(material: graphitic cast iron) endoporus is processed, and requires lathe precision high, when cutting wear occupies larger specific gravity to the economy of cutting, should consider to select the oil base cutting fluid for the range gear air cylinder body.But wish that alleviating mist of oil and the diffusion of splashing due to oil causes lathe ambient contamination and dirt, thereby keep the occasion of clean operation environment.Produce in enormous quantities for the range gear air cylinder body, consider from the flow process of front and back operation, according to the lean production principle, for the demanding machining of cylinder body surface quality, (as expensive in cutter for improving cutting wear simultaneously, sharpening cutter difficulty, loading and unloading length non-cutting time etc.), need the special-purpose cutting fluid of preparation.

Summary of the invention

The technical problem that solves

For fear of the deficiencies in the prior art part, the present invention proposes a kind of cutting fluid for range gear air cylinder body endoporus processing, the quality of endoporus processing and improve cutting wear when solving the range gear air cylinder body and producing in enormous quantities.

Technical scheme

A kind of cutting fluid for the processing of range gear air cylinder body endoporus is characterized in that the weight part of component is: 50 ~ 55% kerosene, 15 ~ 20% soya-bean oil, 5 ~ 10% oleic acid, 2 ~ 5% No. 10 machine oil, 2 ~ 5% rust-preventive agent, 2 ~ 5% tensio-active agent; Above-mentioned component is mixed to get the cutting fluid of processing for range gear air cylinder body endoporus.

Described rust-preventive agent is F20-1.

Described tensio-active agent is BG8653.

Beneficial effect

A kind of cutting fluid for the processing of range gear air cylinder body endoporus that the present invention proposes, by preparing special-purpose cutting fluid, solved the bottleneck problem of work range gear air cylinder body cutting fluid, solve when the range gear air cylinder body is produced in enormous quantities, consider from the flow process of front and back operation, according to the lean production principle, for the demanding machining of cylinder body surface quality, improved simultaneously cutting wear (as expensive in cutter, sharpening cutter difficulty, loading and unloading length non-cutting time etc.), improve simultaneously the stability of quality product, reduced tooling cost.Makers' reputation and share of market have been improved.

Embodiment

Now the invention will be further described in conjunction with the embodiments:

Embodiment 1:

The weight part of component is: 50% kerosene, 15% soya-bean oil, 5% oleic acid, 2% No. 10 machine oil, 2% rust-preventive agent F20-1,2% surfactant B G8653; Above-mentioned component is mixed to get the cutting fluid of processing for range gear air cylinder body endoporus.

Embodiment 2:

The weight part of component is: 55% kerosene, 20% soya-bean oil, 10% oleic acid, 5% No. 10 machine oil, 5% rust-preventive agent F20-1,5% surfactant B G8653; Above-mentioned component is mixed to get the cutting fluid of processing for range gear air cylinder body endoporus.

Embodiment 3:

The weight part of component is: 53% kerosene, 17% soya-bean oil, 70% oleic acid, 3% No. 10 machine oil, 3% rust-preventive agent F20-1,2 ~ 5% surfactant B G8653; Above-mentioned component is mixed to get the cutting fluid of processing for range gear air cylinder body endoporus.

Embodiment 4:

The weight part of component is: 50% kerosene, 17% soya-bean oil, 70% oleic acid, 2% No. 10 machine oil, 4% rust-preventive agent F20-1,3% surfactant B G8653; Above-mentioned component is mixed to get the cutting fluid of processing for range gear air cylinder body endoporus.

Embodiment 5:

The weight part of component is: 585% kerosene, 180% soya-bean oil, 8% oleic acid, 3% No. 10 machine oil, 4% rust-preventive agent F20-1,4% surfactant B G8653; Above-mentioned component is mixed to get the cutting fluid of processing for range gear air cylinder body endoporus.

Claims (3)

1. a cutting fluid that is used for the processing of range gear air cylinder body endoporus, is characterized in that the weight part of component is: 50 ~ 55% kerosene, 15 ~ 20% soya-bean oil, 5 ~ 10% oleic acid, 2 ~ 5% No. 10 machine oil, 2 ~ 5% rust-preventive agent, 2 ~ 5% tensio-active agent; Above-mentioned component is mixed to get the cutting fluid of processing for range gear air cylinder body endoporus.

2. be used for according to claim 1 the cutting fluid of range gear air cylinder body endoporus processing, it is characterized in that: described rust-preventive agent is F20-1.

3. be used for according to claim 1 the cutting fluid of range gear air cylinder body endoporus processing, it is characterized in that: described tensio-active agent is BG8653.