CN106191826A

CN106191826A - A kind of steel bead wire chemical plating stannum bell metal technique

Info

Publication number: CN106191826A
Application number: CN201610670406.XA
Authority: CN
Inventors: 邱勤晓; 邱益诚; 王亚芳
Original assignee: Wuxi Yi Lian Machinery Co Ltd
Current assignee: Wuxi Yi Lian Machinery Co Ltd
Priority date: 2016-08-16
Filing date: 2016-08-16
Publication date: 2016-12-07

Abstract

The invention provides a kind of steel bead wire chemical plating stannum bell metal technique, first tempered bead steel wire is immersed in preplating in plating solution, with deionized water rinsing, dry；Tempered bead steel wire is immersed in plating in plating solution again, with deionized water rinsing, dries,；Described plating solution is made up of methylsulfuric acid copper, stannous methanesulfonate, thiourea, tartaric acid, citric acid, hydroquinone, iminodiacetic acid, picolinic acid, polyacrylic acid, CNT, sulphuric acid and deionized water.The technique of the present invention is without using plating, simple to operate, is easily controlled, and the stanniferous amount of stability contorting steel bead wire coating, and coating effect is good.

Description

A kind of steel bead wire chemical plating stannum bell metal technique

Technical field

The invention belongs to tire production technical field, be specifically related to a kind of steel bead wire chemical plating stannum bell metal technique.

Background technology

Along with the development of steel bead wire plating process, tin bronze alloys coating the most progressively becomes and is applied to tire at present One of circle widest alloy layer of steel wire coating.It is stable that tin bronze coating wire has quality of coating, with the bonding force of rubber (higher by 20% than red copper plating steel wire bonding force), decay resistance and heat aging property are good by force, the advantage meeting environmental requirement, Can preferably meet the requirement of high-performance meridian tire.Tin bronze alloys can pass through galvanoplastic, and (non-spontaneous method i.e. has additional Voltage) and two kinds of methods acquisitions of chemistry autocatalytic method (spontaneous law, i.e. without applied voltage).Chemistry autocatalytic method is utilized to obtain stannum blue or green Copper alloy typically has three kinds of approach: reducing process chemical plating, dismutation reaction chemical plating, immersion plating chemical plating, currently mainly uses Three kinds of approach.Additionally, in order to preferably probe into the phase between copper ion and the stannous ion in chemical plating stannum bell metal plating solution Interaction, researchers the most chemically copper facing and chemical plating stannum two aspect are started with, it is desirable to be able to find out solid between the two Some intercommunities are in order to be able to find mode more easily, and in research chemical plating stannum bell metal plating solution, each material is mutual Relation.Although having made a lot of research, but there is also some restraining factors: when copper ion and stannous ion exist formation jointly During salt-mixture plating solution, owing to the characteristic of effect mutual between copper ion and stannous ion in plating solution and stannous ion itself is led The stability causing plating solution is not good enough so that causes the waste of a large amount of tin metal in actual production process, makes making of plating solution simultaneously Short with the cycle, ultimately result in production cost and remain high.

Summary of the invention

Solve the technical problem that: it is an object of the invention to overcome the deficiencies in the prior art to provide a kind of steel bead wire chemistry Tinning bronze alloying technology, this technique is without using plating, simple to operate, is easily controlled, and stability contorting steel bead wire coating Stanniferous amount, coating effect is good.

Technical scheme: a kind of steel bead wire chemical plating stannum bell metal technique, comprises the following steps:

Step 1, is immersed in preplating 1-2s in plating solution by tempered bead steel wire, and bath temperature is 20-40 DEG C, and linear velocity is 250- 350m/min；

Step 2, by the tempered bead steel wire deionized water rinsing after preplating, dries；

Step 3, is immersed in plating 2-5s in plating solution by step 2 gained tempered bead steel wire, and bath temperature is 25-45 DEG C, linear speed Degree is 200-300m/min；

Step 4, by the tempered bead steel wire deionized water rinsing after plating, dries,；

Wherein, described plating solution is by methylsulfuric acid copper, stannous methanesulfonate, thiourea, tartaric acid, citric acid, hydroquinone, imino group Oxalic acid, picolinic acid, polyacrylic acid, CNT, sulphuric acid and deionized water composition.

Further, step 2 is rinsed temperature be 80-90 DEG C, dry temperature and be 170-180 DEG C.

Further, step 3 is rinsed temperature be 80-90 DEG C, dry temperature and be 170-180 DEG C.

Further, in described plating solution, methylsulfuric acid copper 5-40g/L, stannous methanesulfonate 0.1-1.5 g/L, thiourea 0.01-0.1 g/L, tartaric acid 0.05-0.2 g/L, citric acid 0.04-0.12 g/L, hydroquinone 0.5-3.2 g/L, imido Base oxalic acid 0.2-1.5 g/L, picolinic acid 0.1-0.5 g/L, polyacrylic acid 0.01-0.45 g/L, CNT 0.01- 0.03 g/L, sulphuric acid 15-65 g/L.

Further, in described plating solution, the mass ratio of methylsulfuric acid copper and stannous methanesulfonate is 10～100.

Further, in described plating solution, the concentration of sulphuric acid is 80-90v/v%.

Beneficial effect: the technique of the present invention is without using plating, simple to operate, is easily controlled, and stability contorting tyre bead steel The silk stanniferous amount of coating, coating effect is good.

Detailed description of the invention

Embodiment 1

A kind of steel bead wire chemical plating stannum bell metal technique, comprises the following steps:

Step 1, is immersed in preplating 1-2s in plating solution by tempered bead steel wire, and bath temperature is 20 DEG C, and linear velocity is 250m/min；

Step 3, is immersed in plating 2-5s in plating solution by step 2 gained tempered bead steel wire, and bath temperature is 25 DEG C, and linear velocity is 200m/min；

Wherein, described plating solution is by methylsulfuric acid copper 5g/L, stannous methanesulfonate 0.1g/L, thiourea 0.01g/L, tartaric acid 0.05g/ L, citric acid 0.04g/L, hydroquinone 0.5g/L, iminodiacetic acid 0.2g/L, picolinic acid 0.1g/L, polyacrylic acid 0.01g/L, CNT 0.01g/L, sulphuric acid 15g/L and deionized water composition；Step 2 is rinsed temperature be 80 DEG C, dry temperature Degree is 180 DEG C；Step 3 is rinsed temperature be 80 DEG C, to dry temperature be 180 DEG C；In plating solution, the concentration of sulphuric acid is 80v/v%.

By the tempered bead steel wire of Φ 0.95 mm through overpickling, washing, then use above-mentioned PROCESS FOR TREATMENT, by industry mark Quasi-methods analyst Steel Wire Surface coating, stanniferous amount 0.99%, coating is 0.47g/kg with the mass percent of tempered bead steel wire.

Embodiment 2

Step 1, is immersed in preplating 1-2s in plating solution by tempered bead steel wire, and bath temperature is 30 DEG C, and linear velocity is 300m/min；

Step 3, is immersed in plating 2-5s in plating solution by step 2 gained tempered bead steel wire, and bath temperature is 35 DEG C, and linear velocity is 250m/min；

Wherein, described plating solution is by methylsulfuric acid copper 15g/L, stannous methanesulfonate 0.5g/L, thiourea 0.03g/L, tartaric acid 0.1g/ L, citric acid 0.07g/L, hydroquinone 1.2g/L, iminodiacetic acid 0.6g/L, picolinic acid 0.3g/L, polyacrylic acid 0.07g/L, CNT 0.02g/L, sulphuric acid 35g/L and deionized water composition；Step 2 is rinsed temperature be 85 DEG C, dry temperature Degree is 180 DEG C；Step 3 is rinsed temperature be 80 DEG C, to dry temperature be 175 DEG C；In plating solution, the concentration of sulphuric acid is 80v/v%.

By the tempered bead steel wire of Φ 1.55 mm through overpickling, washing, then use above-mentioned PROCESS FOR TREATMENT, by industry mark Quasi-methods analyst Steel Wire Surface coating, stanniferous amount 3.27%, coating is 0.45g/kg with the mass percent of tempered bead steel wire.

Embodiment 3

Wherein, described plating solution is by methylsulfuric acid copper 30g/L, stannous methanesulfonate 0.3g/L, thiourea 0.08g/L, tartaric acid 0.15g/L, citric acid 0.1g/L, hydroquinone 2.3g/L, iminodiacetic acid 0.8g/L, picolinic acid 0.4g/L, polypropylene Acid 0.32g/L, CNT 0.02g/L, sulphuric acid 55g/L and deionized water composition；Step 2 is rinsed temperature be 80 DEG C, dry Temperature is 170 DEG C；Step 3 is rinsed temperature be 90 DEG C, to dry temperature be 180 DEG C；In plating solution, the concentration of sulphuric acid is 85v/v%.

By the tempered bead steel wire of Φ 1.85 mm through overpickling, washing, then use above-mentioned PROCESS FOR TREATMENT, by industry mark Quasi-methods analyst Steel Wire Surface coating, stanniferous amount 1.87%, coating is 0.42g/kg with the mass percent of tempered bead steel wire.

Embodiment 4

Step 1, is immersed in preplating 1-2s in plating solution by tempered bead steel wire, and bath temperature is 40 DEG C, and linear velocity is 350m/min；

Step 3, is immersed in plating 2-5s in plating solution by step 2 gained tempered bead steel wire, and bath temperature is 45 DEG C, and linear velocity is 300m/min；

Wherein, described plating solution is by methylsulfuric acid copper 40g/L, stannous methanesulfonate 1.5g/L, thiourea 0.1g/L, tartaric acid 0.2g/ L, citric acid 0.12g/L, hydroquinone 3.2g/L, iminodiacetic acid 1.5g/L, picolinic acid 0.5g/L, polyacrylic acid 0.45g/L, CNT 0.03g/L, sulphuric acid 65g/L and deionized water composition；Step 2 is rinsed temperature be 90 DEG C, dry temperature Degree is 170 DEG C；Step 3 is rinsed temperature be 90 DEG C, to dry temperature be 170 DEG C；In plating solution, the concentration of sulphuric acid is 90v/v%.

By the tempered bead steel wire of Φ 1.65 mm through overpickling, washing, then use above-mentioned PROCESS FOR TREATMENT, by industry mark Quasi-methods analyst Steel Wire Surface coating, stanniferous amount 1.58%, coating is 0.39g/kg with the mass percent of tempered bead steel wire.

Claims

1. a steel bead wire chemical plating stannum bell metal technique, it is characterised in that: comprise the following steps:

Steel bead wire chemical plating stannum bell metal technique the most according to claim 1, it is characterised in that: step 2 is rinsed Temperature is 80-90 DEG C, dry temperature is 170-180 DEG C.

Steel bead wire chemical plating stannum bell metal technique the most according to claim 1, it is characterised in that: step 3 is rinsed Temperature is 80-90 DEG C, dry temperature is 170-180 DEG C.

Steel bead wire chemical plating stannum bell metal technique the most according to claim 1, it is characterised in that: in described plating solution, Methylsulfuric acid copper 5-40g/L, stannous methanesulfonate 0.1-1.5 g/L, thiourea 0.01-0.1 g/L, tartaric acid 0.05-0.2 g/ L, citric acid 0.04-0.12 g/L, hydroquinone 0.5-3.2 g/L, iminodiacetic acid 0.2-1.5 g/L, picolinic acid 0.1-0.5 g/L, polyacrylic acid 0.01-0.45 g/L, CNT 0.01-0.03 g/L, sulphuric acid 15-65 g/L.

Steel bead wire chemical plating stannum bell metal technique the most according to claim 1, it is characterised in that: in described plating solution, The mass ratio of methylsulfuric acid copper and stannous methanesulfonate is 10～100.

Steel bead wire chemical plating stannum bell metal technique the most according to claim 1, it is characterised in that: in described plating solution, The concentration of sulphuric acid is 80-90v/v%.