CN106381071A - Polishing solution used for processing optical glass - Google Patents

Abstract

The invention discloses a polishing solution used for processing optical glass. The polishing solution comprises the following components in parts by weight: 1-2 parts of polyethylene glycol, 2.1 parts of potassium phosphate, 1.8 parts of sodium sulfate, 4.4 parts of citric acid, 1.3 parts of polyoxyethylene castor oil, 0.9 parts of sodium ricinoleic acid n-butyl ester sulfate, 1.5 parts of chlorinated distearyl dimethyl ammonium, 0.7 parts of iso-tridecanol polyoxyethylene ether, 1.6 parts of a maleate acrylic polymer acrylic polymer, and 40 parts of deionized water. The polishing solution has high polishing efficiency and good polishing effect, and can increase the glass surface hardness and mechanical property after polishing.

Description

Optical glass producing polishing fluid

Technical field

The present invention relates to optical glass producing polishing fluid.

Background technology

Existing optical glass producing polishing fluid, its polishing efficiency is low, and polishing effect is general, glass surface hardness after polishing And mechanical performance has much room for improvement.

Content of the invention

It is an object of the invention to provide a kind of optical glass producing polishing fluid, its polishing efficiency height, polishing effect is good, Glass surface hardness and mechanical performance after polishing can be improved.

For achieving the above object, the technical scheme is that a kind of optical glass producing polishing fluid of design, by weight Part meter is composed of the following components：

1～2 part of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

Preferably, optical glass producing polishing fluid, composed of the following components by weight：

1 part of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

Preferably, optical glass producing polishing fluid, composed of the following components by weight：

2 parts of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

Preferably, optical glass producing polishing fluid, composed of the following components by weight：

1.2 parts of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

Advantages of the present invention and having the beneficial effects that：There is provided a kind of optical glass producing polishing fluid, its polishing efficiency is high, Polishing effect is good, can improve glass surface hardness and mechanical performance after polishing.

The performance of " polishing fluid " and purposes are determined by its component and proportioning, and the different component meeting in " polishing fluid " Influence each other, component and its proportioning can determine the final performance of " polishing fluid ", such as fruit component and its proportioning be not mutually coordinated, single The beneficial effect that component is brought, even can be eliminated by other components abatement, when serious, different component is mutually conflicted, and rises Less than whole synthesis effect, produce negative interaction and substandard products.The present invention passes through a large amount of creative works, repeatedly verifies, obtains " polishing The optimal component of liquid " and proportioning so that multiple component combine, mutually coordinated and produce positive comprehensive effect.

Specific embodiment

With reference to embodiment, the specific embodiment of the present invention is further described.Following examples are only used for more Plus clearly demonstrate technical scheme, and can not be limited the scope of the invention with this.

The technical scheme that the present invention is embodied as is：

Embodiment 1

Optical glass producing polishing fluid, composed of the following components by weight：

1～2 part of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

Embodiment 2

Optical glass producing polishing fluid, composed of the following components by weight：

1 part of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

Embodiment 3

Optical glass producing polishing fluid, composed of the following components by weight：

2 parts of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

Embodiment 4

Optical glass producing polishing fluid, composed of the following components by weight：

1.2 parts of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

Through the polishing fluid in the various embodiments described above, polishing efficiency is high, and polishing effect is good, can improve glass surface after polishing Hardness and mechanical performance.

The above is only the preferred embodiment of the present invention it is noted that ordinary skill people for the art For member, on the premise of without departing from the technology of the present invention principle, some improvements and modifications can also be made, these improvements and modifications Also should be regarded as protection scope of the present invention.

Claims (4)

1. optical glass producing polishing fluid is it is characterised in that composed of the following components by weight：

1～2 part of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

2. optical glass producing polishing fluid according to claim 1 is it is characterised in that by weight by following components Composition：

1 part of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

3. optical glass producing polishing fluid according to claim 1 is it is characterised in that by weight by following components Composition：

2 parts of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.

4. optical glass producing polishing fluid according to claim 1 is it is characterised in that by weight by following components Composition：

1.2 parts of polyethylene glycol,

2.1 parts of potassium phosphates,

1.8 parts of sodium sulphate,

4.4 parts of citric acids,

1.3 parts of castor oil polyoxyethylene ethers,

0.9 part of castor oil acid butyl ester sodium sulphate,

1.5 parts of chloro distearyl dimethyl ammoniums,

0.7 part of isomerous tridecanol polyoxyethylene ether,

1.6 parts of maleic acrylic polymer,

40 parts of deionized waters.