CN106321497A - Fan rotor self-lubricating method - Google Patents

Abstract

The invention discloses a fan rotor self-lubricating method. A fan spindle adopts a plasma spraying Ni coated microngraphite and graphene coating. The coating prepared by adopting the method attaches to the surface of the fan spindle to play a lubricating role, and frictional resistance can be remarkably reduced.

Description

A kind of fan rotor self-lubricating method

Technical field

The present invention relates to antifriction technical field, particularly relate to a kind of fan rotor self-lubricating method.

Background technology

Metallurgic fan machinery is due to the impact of working environment, and the most unavoidable being in operation is mixed into solid particle, some Even work under granule density environment, as the aerator of breeze roasting is operated in the gas that iron dust containing amount is the highest, Containing substantial amounts of dust and Ore dust granules, the high temperature furnace that iron-smelting furnace blower fan is transported in the air of Mine Ventilator conveying Gas contains lime-ash tar etc..Result according to relevant industries association statistics shows, occupy China's nearly half of blower fan total amount is The conveying gas-solid two-phase mixture blower fan containing particle dust.

Track and the track of gas motion that dust and granule move at blower interior make a big difference, and it is because of contained powder The difference of dirt grain graininess, the levels of granule and quality and the internal structure of runner, the difference in gas motion flow field and There are distinct movement locus and characteristic.Solid element that solid particle is static with blower fan at the volley and the leaf of rotation There is collision, rebound, rub, wear and tear and deposition problems in wheel component, so can badly influence the dynamic balancing of draught fan impeller, greatly Add greatly the amplitude of rotor, and injure the reliability of blower fan, safety and service life.

In the departments such as such as water power thermoelectricity, the energy transport of other industrial circles, coal mining, draught fan impeller weares and teares and turns The problem such as flutter failure of son exists the most widely, and the problem such as the fretting wear of turbomachine and rotor oscillation destruction has caused The highest attention of related personnel.Metallurgic fan machinery great majority are all that load is huge, and long-term work is in rugged environment, because of The fault of rotor main shaft is also frequently there is, among these in this in addition to the excessive wear of fan rotor impeller blade can occur The problem such as the excessive wear mainly including main shaft and the impact failure brought due to reasons such as fan vibrations.

Summary of the invention

It is an object of the invention to propose a kind of fan rotor self-lubricating method, it is possible to reduce the frictional resistance of main shaft, subtract Its abrasion few.

For reaching this purpose, the present invention by the following technical solutions:

A kind of fan rotor self-lubricating method, it uses plasma spraying Ni cladding micron graphite and graphite at blower fan main shaft Ene coatings.

Coating of the present invention is that Ni cladding micron graphite mixes with Graphene coating.Preferably, described weight ratio For (3-5): 1, preferably 4:1.

Described mixing is to use planetary ball mill and centrifugal spraying granulator coating to be dusted.Its technique includes:

(1) Ni is coated with micron graphite granule and Graphene ball milling at least 5 minutes on planetary ball mill；

(2), when ball milling stops first 5 minutes, add organic binder ball milling, obtain suspension；

(3) suspension is carried out mist projection granulating, obtain Ni cladding micron graphite and Graphene agglomerated particle.

Described Ni cladding micron graphite is sprayed to blower fan master with Graphene agglomerated particle by plasma spraying by the present invention On axle.Described plasma spraying, its electric current is 400-700A, and voltage is 30-70V, main gas argon flow amount 50-140L/min, send Powder speed 25-60g/min.Preferably, electric current is 550A, voltage 30V, argon flow amount 50L/min.

Ni of the present invention is coated with micron graphite granule, is existing product, and those skilled in the art can pass through market It is commercially available, it is also possible to prepare according to the method for prior art.The present invention no longer limits with regard to it.

The coating of the present invention, in process of friction and wear, graphite constantly separates out from nickel bag graphite granule, at tangential masterpiece Use lower flowing, ditch dug with a plow can be played the effect of filling and leading up, thus the wearability of main shaft can be improved.And the Graphene added, more suitable Sliding, it is attached to main shaft surface, reduces its frictional resistance.

The coating that the present invention prepares is attached to blower fan main shaft surface, plays lubrication, and friction resistance can be greatly reduced Power.

Detailed description of the invention

Technical scheme is further illustrated below by detailed description of the invention.

Embodiment 1

Planetary ball mill and centrifugal spraying granulator is used to be dusted by coating material.Its technique includes:

(1) Ni is coated with micron graphite granule and Graphene ball milling at least 5 minutes on planetary ball mill；

(2), when ball milling stops first 5 minutes, add organic binder ball milling, obtain suspension；

(3) suspension is carried out mist projection granulating, obtain Ni cladding micron graphite and Graphene agglomerated particle.

By plasma spraying, described Ni cladding micron graphite is sprayed on blower fan main shaft with Graphene agglomerated particle.Institute Stating plasma spraying, its electric current is 550A, voltage 30V, argon flow amount 50L/min.

Coating on described blower fan main shaft, it plays self-lubricating solid effect.

Comparative example 1

Omitting the Graphene of embodiment 1, remaining is same as in Example 1.

Comparative example 2

Ni being coated with micron graphite and replaces with micron graphite, remaining is same as in Example 1.

The coating of comparative example 1-2, can play lubrication equally, but described lubricant effect is slightly worse, simply compared to not containing The main shaft of coating, improves.Lubricant effect comparative example 1-2 to be substantially better than of embodiment 1, and wear time is long, plays profit The sliding time is the most significantly longer.That is, 3 kinds of material mixing of the present invention, play synergism.

Claims (5)

1. a fan rotor self-lubricating method, it uses plasma spraying Ni cladding micron graphite and Graphene at blower fan main shaft Coating.

2. fan rotor self-lubricating method as claimed in claim 1, it is characterised in that described coating is that Ni is coated with micron graphite Mixing with Graphene coating, its weight ratio is (3-5): 1, preferably 4:1.

3. fan rotor self-lubricating method as claimed in claim 1 or 2, it is characterised in that described mixing is to use planet ball Coating is dusted by grinding machine and centrifugal spraying granulator, and its technique includes:

(1) Ni is coated with micron graphite granule and Graphene ball milling at least 5 minutes on planetary ball mill；

(2), when ball milling stops first 5 minutes, add organic binder ball milling, obtain suspension；

(3) suspension is carried out mist projection granulating, obtain Ni cladding micron graphite and Graphene agglomerated particle.

4. the fan rotor self-lubricating method as described in one of claim 1-3, it is characterised in that by plasma spraying by institute State Ni cladding micron graphite to spray on blower fan main shaft, obtain described coating with Graphene agglomerated particle.

5. the fan rotor self-lubricating method as described in one of claim 1-4, it is characterised in that described plasma spraying, its Electric current is 400-700A, and voltage is 30-70V, main gas argon flow amount 50-140L/min, powder feed rate 25-60g/min；Preferably , electric current is 550A, voltage 30V, argon flow amount 50L/min.