TECHNICAL INFORMATION

Please scroll down the page to see the technical information of each type of anode avaiable
Standard: MIL-A-18001K

ZINC ANODES/ ZINETI Anodes - Z

Chemical analysis: Maximum impurities:
Al. 0,10-0,50% Fe. Maximum 0,005%
Cd. 0,025-0,07% Cu. >> 0,005%
Zn. Rest Pb. >> 0,006%
    Si. >> 0,125%

Technical Data:
Capacity 781 Ah/Kg
Efficiency 95% Theoretically for pure Zinc
Consumption 11,2 Kg/Year
Conduction tension 0,23 Volts on polarized iron
Density 7,13 Kg/dm3
Potential in closed circuit -1,08 V (vs. Electrode Ref. Cu/Cu/SO4)


ALUMINIUM ANODES/ ZINETI Anodes- A

Chemical analysis: Maximum impurities:
Zn. 0,5-5% Si. Maximum 0,10%
In. 0,005-0,05% Cu. >> 0,001%
Al. Rest Fe. >> 0,13%

Technical Data:
Capacity 2.600 Ah/Kg
Efficiency 88% Theoretically for pure Aluminum
Consumption 3,37 Kg/Year
Conduction tension 0,29 Volts on polarized steel
Density 2,78 Kg/dm3
Potential in closed circuit -1,14 V (vs. Electrode Ref. Cu/Cu/SO4)


MAGNESIUM ANODES/ ZINETI Anodes - M High Potential

Chemical analysis: Maximum impurities:
Al. 5,8% Fe. Maximum 0,002%
Zn. 2 a 3% Cu. >> 0,03%
Mg. Base Si. >> 0,05%
    Ni. >> 0,003%
      Mn. >> 0,25%

Technical Data:
Capacity 1.230 Ah/Kg
Efficiency 56% Theoretically for pure Magnesium
Density 1,8 Kg/dm3
Potential with respect to protected steel (-0,8V) -0,7

Electrochemical characteristics of Zn. Al. and Mg

Metals Atomic Weight (gr)
Zinc 65,38
Aluminium 27,00
Magnesium 24,32

Equivalent (gr) Current Capacity Axh/Kh (Theoretically)
Zn 32,69 820
Al. 9,00 2.980
Mg. 12,16 2.210

NOTA: These metals are used as alloys, not pure.