Aluminum-Zinc-Indium Alloy Sacrificial Anode(Al-Zn-In)

Aluminum-Zinc-Indium Alloy Sacrificial Anode(Al-Zn-In)


Type of Material

Aluminum-Zinc-Indium-Cadmium alloy sacrificial anode(Al-Zn-In-Ca)

Aluminum-Zinc-Indium-Tin alloy sacrificial anode(Al-Zn-In-Sn)

Aluminum-Zinc-Indium-Silicon alloy sacrificial anode(Al-Zn-In-Si)

Aluminum - Zinc-Indium -Tin-Magnesium alloy sacrificial anode(Al-Zn-In-Sn-Ma)

Aluminum-Zinc-Indium-Magnesium--Titanium alloy sacrificial anode(Al-Zn-In-Mg-Ti)


Overview

Application

Aluminum - zinc - indium anode production according to GB/T4948-2002, mainly used in the following fields:

Offshore engineering: such as ships, offshore platforms, subsea pipelines and other facilities requiring long-term corrosion protection.

Oil and gas: including storage tanks, pipelines, drilling platform corrosion protection.

Infrastructure: Steel structures such as Bridges, port facilities, etc. that are exposed to corrosive environments.

Energy facilities: wind power equipment, offshore cables, etc.

Raw Materials

Aluminum purity should not be lower than GB/T 1196-1993 AL99.80 provisions

Zinc purity should not be lower than GB/T 470-1997 Zn99.99 provisions

Indium purity shall not be lower than that specified In IN-1 in YS/T 257-1998

The purity of cadmium shall not be lower than Cd99.99 stipulated in YS/T 72-1994

Tin purity should not be lower than GB/T 728-1998 Sn99.95 provisions

The purity of magnesium should not be lower than Mg99.95 stipulated in GB/T 3499-1995

Silicon purity shall not be lower than GB/T 8734-2000

The purity of titanium shall not be lower than that of grade 2 titanium in GB/T 2524-1981

Chemical Composition(When required by the customer, the chemical composition of the sacrified anode can be adjusted appropriately, but its performance and quality should meet the GB/T4948-2002 standard)

Chemical composition of Al-Zn-In Anode.jpg

Electrochemical performance

Item

Anode Material

Open circuit potential/

V

Working circuit potential/V

Actual current capacity/

(Ah/kg)

Efficiency of current/

%

Rate of consumption/

kg·(A·a)

State of dissolution

Electrochemical performance

I Type

-1.18~-1.10

-1.12~-1.05

2400

85

3.65

The product is easy to fall off, and the surface is evenly dissolved

II Type

-1.18~-1.10

-1.12~-1.05

2600

90

3.37


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