CN105420756A

CN105420756A - Method for recycling indium from waste ITO target material through reduction method

Info

Publication number: CN105420756A
Application number: CN201510896090.1A
Authority: CN
Inventors: 袁承乾; 范德胜
Original assignee: China Germanium Co Ltd
Current assignee: China Germanium Co Ltd
Priority date: 2015-12-08
Filing date: 2015-12-08
Publication date: 2016-03-23

Abstract

The invention discloses a method for recycling indium from a waste ITO target material through a reduction method. The method includes the following steps that firstly, the waste ITO target material is subjected to ball grinding, the waste ITO target powder is obtained and contained in a container, hydrogen is led into the container under the condition of the high temperature of 780 DEG C, and indium and tin alloy is obtained through reduction; and secondly, under the environment with sulfuric acid with the PH of 2-2.5, 70-100 g/L of indium ions and 75-90 g/L of sodium ions at the temperature of 22-25 DEG C, the indium and tin alloy is electrolyzed, high-purity indium 4N is obtained, and tin enters anode mud. According to the method, pollution is avoided in production, the purity of indium can be ensured, and the purity of the indium can reach 4N or higher through one-time electrolysis. According to the method, production cost is saved by 50% compared with production cost of wet process production, and generation of waste water and waste gas is avoided.

Description

The method of reduction method recovery indium from ITO waste target

Technical field

The present invention relates to the method for a kind of reduction method recovery indium from ITO waste target.

Background technology

Indium is a kind of important dissipated metal element, and its compound has a wide range of applications in semi-conductor, electronic industry, nuclear industry etc.Wherein indium tin oxide (ITO) is the most large consumption of indium, accounts for more than seventy percent of aggregate consumption.Produce the scrap stock, the target after chip and waste product and sputter coating that produce in target process at ITO powder, this type of is the largest source of the secondary resource of indium.ITO principal constituent is: indium 70-75%, tin 7-8%, and other is oxygen, a small amount of impurity.

From ITO waste target, recovery indium key considers the separation of indium tin, the quality of thick indium, the yield of thick indium, environmental pollution, production cost.

Although adopt traditional technology, utilize the technique of replacing tin in Leaching in Hydrochloric Acid solution can obtain qualified thick indium by separating indium tin, but need every day the thick indium finished product of about 10% to return displacement tin operation, the rate of recovery <95% of indium, and the indium grade in spongy tin is up to 5-10%, is difficult to give up and sells as tin product.

Also have other wet method Ore Leachings to produce, all can produce a large amount of spent acid, cause environmental pollution.

Summary of the invention

For problems of the prior art, the technical problem that the present invention is intended to realize is: the method designing a kind of reduction method recovery indium tin from ITO waste target, realizes high-level efficiency in hydrogen reducing atmosphere and reclaims.

In order to realize foregoing invention object, its technical scheme adopted is: with hydrogen reducing, generates indium stannum alloy, then through the method for electrolysis, electrolysis production goes out high purity indium 4N (99.995%).

ITO waste target ball grinds, the target powder that given up by ITO is contained in vessel, under the condition of high temperature, passes into hydrogen, and Indium sesquioxide, stannic oxide are reduced into indium stannum alloy, then indium stannum alloy is cast into anode and carries out electrolysis, and tin enters the anode sludge.

Processing condition:

1, reductive condition: ITO powder, granularity: 200 orders, reductive agent: hydrogen, reduction temperature: 750 DEG C ~ 820 DEG C.

2, electrolysis system: sulfuric acid, PH=2-2.5, In ³⁺: 70-100g/L, Na ⁺: 75-90g/L, temperature: 22-25 DEG C.

Present method has following beneficial effect: this method is produced and do not polluted, and indium purity can ensure, once electrolytic indium purity can reach more than 4N.This method production cost reduces expenses 50% than wet production, and produces without waste water and gas.

Accompanying drawing explanation

Fig. 1 is the process flow sheet of the embodiment of the present invention.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

Embodiment one: reduction method technique as shown in Figure 1: ITO waste target ball grinds, ITO gives up target powder particles: 200 orders; The target powder that given up by ITO is contained in vessel, under the condition of 780 DEG C of high temperature, passes into reductive agent hydrogen, Indium sesquioxide, stannic oxide are reduced into indium stannum alloy;

Again indium stannum alloy is cast into anode and carries out electrolysis, electrolysis system: sulfuric acid, PH=2; In ³⁺: 70/L, Na ⁺: 75g/L, temperature: 22 DEG C.Tin enters the anode sludge.Again tin is reduced afterwards.

Embodiment two: with embodiment one, wherein electrolysis system: sulfuric acid, PH=2; In ³⁺: 70/L, Na ⁺: 90g/L, temperature: 22 DEG C.

Embodiment three: with embodiment one, wherein electrolysis system: sulfuric acid, PH=2.5; In ³⁺: 100/L, Na ⁺: 75g/L, temperature: 22 DEG C.

Embodiment four: with embodiment one, wherein electrolysis system: sulfuric acid, PH=2.5; In ³⁺: 100/L, Na ⁺: 90g/L, temperature: 22 DEG C.

Embodiment five: with embodiment one, wherein electrolysis system: sulfuric acid, PH=2.5; In ³⁺: 100/L, Na ⁺: 90g/L, temperature: 25 DEG C.

Embodiment six: with embodiment one, when wherein passing into hydrogen, is the hot environment of 750 DEG C.

Embodiment seven: with embodiment one, when wherein passing into hydrogen, is the hot environment of 820 DEG C.

Above embodiment is only and technological thought of the present invention is described, can not limit protection scope of the present invention with this, and every technological thought proposed according to the present invention, any change that technical scheme basis is done, all falls within scope.The technology that the present invention does not relate to all is realized by existing technology.

Claims

1. the method for reduction method recovery indium from ITO waste target, is characterized in that:

Step one: by ITO waste target through ball milling, obtain ITO and to give up target powder, the target powder that given up by described ITO is contained in vessel, under the condition of 750 DEG C of-820 DEG C of high temperature, pass into hydrogen, reduces to obtain indium stannum alloy;

Step 2: be sulfuric acid, the In of 2 ~ 2.5 at PH ³⁺content 70 ~ 100g/L, Na ⁺content 75 ~ 90g/L, under temperature 22 ~ 25 DEG C of environment, by described indium stannum alloy electrolysis, obtain high purity indium 4N, tin enters the anode sludge.

2. the method for reduction method according to claim 1 recovery indium from ITO waste target, is characterized in that: described indium stannum alloy is cast into anode and carries out electrolysis.

3. the method for reduction method according to claim 1 recovery indium from ITO waste target, is characterized in that: the described ITO target Powder Particle Size that gives up is 200 orders.