Application: | Marine |
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Zn-Standard: | GB/T4950-2021,Dnv,Us-Mil-a-18001j, ASTM B418-73 |
Al-Standard: | GB/T4948-2002,Dnv,Norsok, Pl742, Impalloy |
Transport Package: | Export Pallet/Wooden Square/Wooden Box |
Specification: | ZN-AL-CD Alloy/AL-ZN-IN Alloy |
Trademark: | KAIDE |
Customization: |
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Aluminum Alloy Chemical composition: | |||||||||||||||||
Type | Zn% | In % | Cd % | Sn % | Mg % | Ti % | Impurity | Al% | |||||||||
Si % | Fe% | Cu% | |||||||||||||||
Al-Zn-In-Cd A11 |
2.5-4.5 | 0.018-0.050 | 0.005-0.020 | 0.10max | 0.15max | 0.01max | Balance | ||||||||||
Al-Zn-In-Sn A12 |
2.5-5.2 | 0.020-0.045 | 0.018-0.035 | 0.10max | 0.15max | 0.01max | Balance | ||||||||||
Al-Zn-In-Si A13 |
5.5-7.0 | 0.025-0.035 | 0.10max | 0.15max | 0.01max | Balance | |||||||||||
Al-Zn-In-Sn-Mg A14 |
2.5-4.0 | 0.020-0.050 | 0.025-0.075 | 0.50-1.00 | 0.10max | 0.15max | 0.01max | Balance | |||||||||
Al-Zn-In-Sn-Mg-Ti A21 |
4.0-7.0 | 0.020-0.050 | 0.5-1.50 | 0.01-0.08 | 0.10max | 0.15max | 0.01max | Balance | |||||||||
Electrochemical Properties of Aluminum Sacrificial Anode: | |||||||||||||||||
Anode Type | Open Circuit Voltage (V) |
Close Circuit Voltage (V) |
Actual Capacity (Ah/kg) |
Current Efficiency (%) |
Consumption Rate Kg · (A ·a)-¹ |
Dissolve Situation | |||||||||||
A11,A12,A13,A14 | -1.18~-1.10 | -1.12~-1.05 | ≥2400 | ≥85 | ≤3.65 | The product is easy to fall off, and the surface dissolves in uniformity. | |||||||||||
A21 | -1.18~-1.10 | -1.12~-1.05 | ≥2600 | ≥90 | ≤3.37 | ||||||||||||
Medium:Artificial sea water or natual sea water. | |||||||||||||||||
Zinc Alloy Chemical composition: | |||||||||||||||||
Elements | Al% | Cd % | Impurity | Zn% | |||||||||||||
Fe % | Cu % | Pb % | Si % | ||||||||||||||
Content | 0.3-0.6 | 0.05-0.012 | 0.005max | 0.005max | 0.006max | 0.125max | Balance | ||||||||||
Electrochemical Properties of Zinc Sacrificial Anode: | |||||||||||||||||
Medium | Open Circuit Voltage (V) |
Close Circuit Voltage (V) |
Actual Capacity (Ah/kg) |
Current Efficiency (%) |
Consumption Rate Kg · (A ·a)-¹ |
Dissolve Situation | |||||||||||
Sea Water(1mA/cm²) | -1.09~-1.05 | -1.05~-1.00 | ≥780 | ≥95 | ≤11.23 | The product is easy to fall off, and the surface dissolves in uniformity. | |||||||||||
In Soil (0.03mA/cm²) | ≤-1.05 | ≤-1.03 | ≥530 | ≥65 | ≤17.25 | ||||||||||||
Medium:Artificial sea water or natual sea water.In soil used moist soil and filled up by back-fill material |
When the hull made of iron comes into contact with seawater, it will generate electric potential and cause electric corrosion. Therefore, in order to minimize the contact between the hull and seawater, anti-corrosion paint is used to isolate the hull from the seawater. However, contact with seawater caused by the stern shafting, propellers, or damage to the hull cannot be completely avoided. Therefore, part of the ship hull that comes into contact with seawater will undergo electrochemical corrosion, and the degree of corrosion varies depending on the electrolysis situation.
Electrolysis reaction of galvanic cell: When two metals or metals containing impurities are placed in the electrolyte, the metal is highly mobile and easily loses electrons, is oxidized, and an oxidation reaction occurs. It becomes the anode and is positively charged (the so-called metal oxide is formed). Corroded) to increase the potential and can be used as a positive electrode (the positive electrode is for the free charge in the external electrolyte, the positive electrode attracts negative charges, and the positive charge flows to the negative electrode, which can be considered as the direction of current). Those with weak metal activity get electrons, which are reduced, and a reduction reaction takes place. It is the cathode (the electrode accumulates metal), and its potential is reduced, becoming a negative electrode, attracting positive charges to accumulate.
Cathodic protection reverses the above process. According to the different ways of providing cathodic current, cathodic protection is divided into two types: sacrificial anode method and impressed current method. The former is a metal with a more negative potential (such as magnesium, aluminum, zinc, etc.). Note: The metal is more mobile, more active, and more susceptible to electrons). It is electrically connected to the protected metal structure, and through the continuous dissolution and consumption of the electronegative metal or alloy, the protection current is provided to the protected object to make the metal structure Get protection. The latter is to convert the external alternating current into low-voltage direct current, and apply a certain direct current to the protected metal surface to cause cathodic polarization. When the potential of the metal is negative than a certain potential value, the corrosion of the anode dissolution process will be obtained. Effective suppression.
Taicang Kaide Anticorrosion Technology Co., Ltd. has specialized in the production of sacrificial anodes since 2011.Suppliers with verified business licenses