CN106366936A

CN106366936A - Method for preparing stainless steel part polishing solution of precise instruments

Info

Publication number: CN106366936A
Application number: CN201610732469.3A
Authority: CN
Inventors: 沈振德
Original assignee: Ningbo City Yinzhou With Pml Precision Mechanism Ltd
Current assignee: Ningbo City Yinzhou With Pml Precision Mechanism Ltd
Priority date: 2016-08-27
Filing date: 2016-08-27
Publication date: 2017-02-01

Abstract

The invention discloses a method for preparing stainless steel part polishing solution of precise instruments. The method comprises the following specific steps: 1) weighing the following raw materials in percentage by weight: 0.6-2.8% of chabasite, 0.2-0.3% of 1,2,3-benzotriazole, 0.02-0.03% of cerium oxide, 2-3% of hexadecylsulfonic acid sodium salt, 1-3% of cubic boron nitride, 2.5-5% of lignocelluloses, 3-5% of silicon carbide, 0.6-0.8% of dimethyl silicone oil, 0.5-1.3% of aluminum oxide and the balance of water. The polishing solution prepared by the method disclosed by the invention is capable of effectively improving the surface smoothness of stainless steel and effectively removing oxides and oil dirt on the stainless steel surface so as not to influence or damage the surface evenness of the polished stainless steel parts.

Description

The preparation method of precision instrument stainless steel parts polishing fluid

Technical field

The present invention relates to a kind of preparation method of precision instrument stainless steel parts polishing fluid.

Background technology

It is currently used for the polishing fluid of stainless steel parts and lead to it that stainless steel parts are thrown due to the unreasonable of polishing fluid formula Surface irregularity after light and bright and clean, damage layer depth, this does not allow for the part of precision instrument, is easily caused larger Error, furthermore if polishing fluid can not be effectively improved stainless effectively by the oxide of stainless steel surfaces and oily waste degradation Surface flatness, will have a strong impact on the service behaviour of precision instrument, simultaneously because polished surface damages relatively deep polishing in addition The unreasonable surface that is easily caused of grain granularity design embeds polishing particles, brings adverse effect to crudy.

Content of the invention

The technical problem to be solved is, the shortcoming overcoming above prior art: provides one kind can be effectively improved Stainless surface flatness and effectively by the oxide of stainless steel surfaces and oily waste degradation without affecting or damaging rustless steel The preparation method of the precision instrument stainless steel parts polishing fluid of the surface smoothness after part polishing.

The technical solution of the present invention is as follows: a kind of preparation method of precision instrument stainless steel parts polishing fluid, including Step in detail below:

1) proportioning based on following percentage by weight weighs each raw material: chabasie 0.6-2.8%；1,2,3- benzotriazole 0.2- 0.3%；Cerium oxide 0.02-0.03%；Sodium cetanesulfonate 2-3%；Cubic boron nitride 1-3%；Lignocellulose 2.5- 5%；Carborundum 3-5%；Dimethicone 0.6-0.8%；Aluminium oxide 0.5-1.3%；Balance of water；

2) respectively by chabasie be ground to particle mean size be 10-20 nanometer, cubic boron nitride abrasive to particle mean size be 0.2-0.3 Micron, alumina lap to particle mean size are 0.5-0.8 micron, carborundum is ground to particle mean size for 1.2-1.5 micron, oxidation Cerium is ground to particle mean size for 50-100 nanometer and mix homogeneously obtains mixed powder；

3) by 1 in step 1), 2,3- benzotriazole, sodium cetanesulfonate, lignocellulose, dimethicone, water mix Conjunction is heated under stirring action after 45-60 DEG C adding step 2) the middle mixed powder prepared, stir evenly.

Preferably, in step 1), the proportioning based on following percentage by weight weighs each raw material: chabasie 1.5%；1,2, 3- benzotriazole 0.3%；Cerium oxide 0.03%；Sodium cetanesulfonate 3%；Cubic boron nitride 2%；Lignocellulose 1.7%；Carborundum 5%；Dimethicone 0.8%；Aluminium oxide 1.3%；Balance of water.

Preferably, step 2) in, chabasie is ground to that particle mean size is 10 nanometers, cubic boron nitride abrasive is to average grain Spend for 0.2 micron, alumina lap to particle mean size be 0.6 micron, carborundum be ground to particle mean size be 1.2 microns, oxidation Cerium is ground to particle mean size and is 50 nanometers.

Present invention beneficial effect compared with the existing technology is: the present invention is by rational for stainless material behavior In conjunction with the fineness ratio of respective components, can effectively by the oxide of stainless steel surfaces and oily waste degradation while do not interfere with or damage Hinder the surface smoothness of stainless steel parts, lignocellulose can effectively prevent stainless steel surfaces from playing while being fitted together to polishing particles It is passivated the effect of smooth finish surface further.Polishing effect of the present invention is good, its surface nondestructive wound after polishing, and raw material is environment friendly and pollution-free, It is suitable for promoting the use of.

Specific embodiment

With specific embodiment, the present invention is described in further details below, but the present invention is not only limited in detail below in fact Apply example.

Embodiment one

A kind of preparation method of precision instrument stainless steel parts polishing fluid, including step in detail below:

Embodiment two

1) proportioning based on following percentage by weight weighs each raw material: chabasie 2.8%；1,2,3- benzotriazole 0.2%；Oxygen Change cerium 0.03%；Sodium cetanesulfonate 3%；Cubic boron nitride 3%；Lignocellulose 2.5%；Carborundum 3%；Dimethyl Silicone oil 0.8%；Aluminium oxide 0.8%；Balance of water；

2) respectively by chabasie be ground to particle mean size be 20 nanometers, cubic boron nitride abrasive to particle mean size be 0.2 micron, oxygen Change aluminum be ground to particle mean size be 0.5 micron, carborundum be ground to that particle mean size is 1.5 microns, cerium oxide abrasive is to average grain Spend for 100 nanometers and mix homogeneously obtains mixed powder；

3) by 1 in step 1), 2,3- benzotriazole, sodium cetanesulfonate, lignocellulose, dimethicone, water mix Conjunction is heated under stirring action after 45 DEG C adding step 2) the middle mixed powder prepared, stir evenly.

Embodiment three

1) proportioning based on following percentage by weight weighs each raw material: chabasie 1.5%；1,2,3- benzotriazole 0.3%；Oxygen Change cerium 0.03%；Sodium cetanesulfonate 3%；Cubic boron nitride 2%；Lignocellulose 1.7%；Carborundum 5%；Dimethyl Silicone oil 0.8%；Aluminium oxide 1.3%；Balance of water.

2) respectively by chabasie be ground to particle mean size be 10 nanometers, cubic boron nitride abrasive to particle mean size be 0.2 micro- Rice, alumina lap to particle mean size are 0.6 micron, carborundum is ground to that particle mean size is 1.2 microns, cerium oxide abrasive is to flat All granularity is 50 nanometers and mix homogeneously obtains mixed powder；

The above is only the feature implementation example of the present invention, the scope of the present invention is not limited in any way.All employings are same The technical scheme being formed Deng exchange or equivalence replacement, all falls within rights protection scope of the present invention.

Claims

1. a kind of preparation method of precision instrument stainless steel parts polishing fluid it is characterised in that: include step in detail below:

2. precision instrument stainless steel parts polishing fluid according to claim 1 preparation method it is characterised in that: step 1), in, the proportioning based on following percentage by weight weighs each raw material: chabasie 1.5%；1,2,3- benzotriazole 0.3%；Oxygen Change cerium 0.03%；Sodium cetanesulfonate 3%；Cubic boron nitride 2%；Lignocellulose 1.7%；Carborundum 5%；Dimethyl Silicone oil 0.8%；Aluminium oxide 1.3%；Balance of water.

3. precision instrument stainless steel parts polishing fluid according to claim 1 preparation method it is characterised in that: step 2) In, chabasie be ground to particle mean size be 10 nanometers, cubic boron nitride abrasive to particle mean size be 0.2 micron, alumina lap To particle mean size be 0.6 micron, carborundum be ground to that particle mean size is 1.2 microns, cerium oxide abrasive to particle mean size receives for 50 Rice.