CN106337184A - Water-soluble copper alloy corrosion inhibitor - Google Patents

Abstract

Disclosed is a water-soluble copper alloy corrosion inhibitor. The water-soluble copper alloy corrosion inhibitor comprises solutes and a solvent. The solvent is water. The solutes comprise, by concentration, 0.8-1.2 mg/L of mercaptobenzothiazole, 0.1-0.2 mg/L of nitric acid, 1.0-3.0 mg/L of 2-triethanolamine, 1-2 mg/L of tartaric acid and 2.0-3.5 mg/L of sodium tripolyphosphate. The water-soluble copper alloy corrosion inhibitor is prepared for meeting the requirements of the corrosion resistance technology for copper alloy materials, special effects on surface decontamination, rust removal and plating defect elimination of the copper alloy materials are achieved, a firm and compact single molecule protective film is formed on the surface of treated copper alloy, and a corrosion inhibition effect is produced.

Description

A kind of water-soluble copper alloy corrosion inhibitor

technical field

The invention relates to the field of anti-corrosion technology, in particular to a water-soluble copper alloy corrosion inhibitor.

Background technique

According to the Standard Definition of Corrosion and Corrosion Testing Terms by American Society for Testing and Materials, a corrosion inhibitor is "a chemical substance or substance that prevents or slows down corrosion when it exists in the environment (medium) in an appropriate concentration and form. A mixture of several chemical substances." Generally speaking, corrosion inhibitors refer to those substances that are used to protect the metal surface. Adding a trace or a small amount of such chemical substances can significantly reduce the corrosion rate of metal materials in this medium until to zero. At the same time, the original physical and mechanical properties of the metal material can be kept unchanged. Rational use of corrosion inhibitors is an effective method to prevent corrosion of metals and their alloys in environmental media. Corrosion inhibitor technology has become one of the most widely used methods in anti-corrosion technology due to its good effect and high economic benefits. Especially in the production and processing of petroleum products, chemical cleaning, atmospheric environment, industrial water, machinery, instrument manufacturing and petrochemical production, corrosion inhibition technology has become one of the main anti-corrosion means.

English professional name of corrosion inhibitor: anti-corrosive.corrosion inhibitor. Also known as a corrosion inhibitor. Its dosage is very small (0.1% ~ 1%), but the effect is remarkable. Mainly used in neutral medium (boiler water, circulating cooling water), acidic medium (hydrochloric acid for removing scale, acid leaching solution for rust removal of plated parts before electroplating) and gaseous medium (gas phase corrosion inhibitor). The greater the corrosion inhibition efficiency, the better the corrosion inhibition effect. Sometimes lower doses of several different types of corrosion inhibitors can be used in combination to obtain better corrosion inhibition effects. This effect is called a synergistic effect; on the contrary, if different types of corrosion inhibitors are used together, the respective corrosion inhibition efficiency will be reduced. , which is called the antagonistic effect. The corrosion inhibition effect of the corrosion inhibitor is closely related to its use concentration and the pH value, temperature and flow rate of the medium, so it should be strictly selected according to the protected object and environmental conditions.

Contents of the invention

The invention aims at the deficiencies of the prior art and provides a water-soluble copper alloy corrosion inhibitor.

In order to achieve the above object, the present invention adopts the following technical solutions:

A water-soluble copper alloy corrosion inhibitor, including a solute and a solvent, the solvent is water, the solute and its concentration are as follows: 0.8-1.2 mg/L of mercaptobenzothiazole, 0.1-0.2 mg/L of nitric acid, 2-aminotriethanol 1.0~3.0mg/L, tartaric acid 1~2mg/L and sodium tripolyphosphate 2.0~3.5mg/L.

Compared with the prior art, the present invention has the beneficial effects:

The present invention is formulated according to the anti-corrosion technical requirements of copper alloy materials, and the formula components have a strong synergistic effect after mixing, and have special effects on decontamination, rust removal, and coating defects on the surface of copper alloy materials. A strong and dense monomolecular protective film is formed on the surface to produce corrosion inhibition effect. The operation is safe, the process is simple, and the cleaning parts ensure thorough decontamination and rust removal, which provides a reliable guarantee for the high quality and high yield of the subsequent coating process.

detailed description

The technical solution of the present invention will be further elaborated below through examples.

Example 1

A water-soluble copper alloy corrosion inhibitor, comprising solute and solvent, described solvent is water, described solute and its concentration are as follows: mercaptobenzothiazole 1.2mg/L, nitric acid 0.2mg/L, 2-aminotri Ethanol 3.0mg/L, tartaric acid 2mg/L and sodium tripolyphosphate 3.5mg/L.

Example 2

A water-soluble copper alloy corrosion inhibitor, comprising a solute and a solvent, the solvent is water, the solute and its concentration are as follows: mercaptobenzothiazole 0.8mg/L, nitric acid 0.1mg/L, 2-aminotri Ethanol 1.0mg/L, tartaric acid 1mg/L and sodium tripolyphosphate 2.0mg/L.

Example 3

A water-soluble copper alloy corrosion inhibitor, comprising solute and solvent, described solvent is water, described solute and its concentration are as follows: mercaptobenzothiazole 1.0mg/L, nitric acid 0.15mg/L, 2-aminotri Ethanol 1.5mg/L, tartaric acid 1.5mg/L and sodium tripolyphosphate 2.8mg/L.

According to GB50050-2007 Design Specification for Industrial Circulating Cooling Water Treatment, the control conditions and indicators of the circulating cooling water heat exchange equipment in the intercooling open system shall meet the following requirements:

The thermal resistance of dirt on the water side of the heat transfer surface of the equipment should be less than 3.44×10 ^-4 m ² ·K/W;

The adhesion rate on the water side of the heat transfer surface of the equipment should not exceed 15 mg/cm ² ·month;

The corrosion rate on the water side of the heat transfer surface of copper alloy and stainless steel equipment should be less than 0.005mm/a.

The actual use effect test result of embodiment 3 gained copper alloy corrosion inhibitor is as follows:

The thermal resistance of dirt on the water side of the heat transfer surface of the equipment should be 2.11×10 ^-5 m ² ·K/W, which is better than the requirements of GB50050-2007;

The adhesion rate on the water side of the heat transfer surface of the equipment is 3.18 mg/cm ² month, which is better than the requirements of GB50050-2007;

The corrosion rate of the water side of the heat transfer surface of copper alloy equipment is 0.00047mm/a, which is better than the requirements of GB50050-2007.

Claims (1)

1. a kind of water-soluble copper alloy corrosion inhibiter, including solute and solvent, described solvent is water it is characterised in that described Solute and its concentration are as follows: mercaptobenzothiazoler 0.8～1.2mg/l, nitric acid 0.1～0.2mg/l, 2- Triaethanolamine 1.0～ 3.0mg/l, tartaric acid 1～2mg/l and sodium tripolyphosphate 2.0～3.5mg/l.