Mercruiser Alpha I Gen II Aluminum Anode Kit | Martyr CMALPHAKITA - MacombMarineParts.com

Mercruiser Alpha I Gen II Aluminum Anode Kit | Martyr CMALPHAKITA

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Mercruiser Alpha I Gen II Aluminum Anode Kit | Martyr CMALPHAKITA

Martyr Mercruiser Alpha I Gen II Aluminum Anode Kit | CMALPHAKITA

Martyr anode kit includes all replacement anodes needed to protect Mercruiser Alpha Generation II stern drives from corrosion in salt and brackish water.

  • For Mercruiser Alpha One Generation II drives from 1991 to present
  • Kit includes CM762145A trim tab anode, CM806105A bearing carrier anode, CM821629A housing plate, CM821631A gimbal block anode and (2) CM806189A trim cylinder anodes
  • Aluminum anodes for use in brackish and salt water applications
  • Martyr anodes are made of a high purity specialized alloy based on the US Mil Spec
  • Supplied with mounting hardware for anodes

 

Fit the correct anode material for the waters in which your vessel operates

As a general rule, owners should fit anodes appropriate for the environment in which they most frequently berth, and the infomation below serves as a useful guide:

  • Saltwater vessels should use Traditional (Zinc) Anodes
  • Brackish water Vessels should use Premium (Aluminum) Anodes
  • Fresh water vessels should use Fresh (Magnesium) Anodes
Anodes (Magnesium) Fresh

Some boats will alternate between salt and fresh water. Others are docked in marinas or behind tidal barriers. The water there is contained and likely to be brackish or nearly fresh. To avoid corrosion, boat owners must be aware of the consequences this may have on their vessels.  Boat owners can then install the proper cathodic protection system.

Not all anodes are appropriate for every application.

For example, after a period of time in fresh water, the surface of a zinc or aluminum anode will become covered with an off-white crust of oxide, essentially sealing the anode and preventing it from functioning even when restored to saltwater. Zinc anodes have a similar difficulty even in brackish circumstances, however aluminum will continue to perform well in river estuaries and other brackish water areas indefinitely. Because the anode is passive, the next most anodic component in the anode bonding system will begin to sacrifice itself, which might be disastrous.

As a result, it is critical to inspect zinc and aluminum anodes after any trips into fresh water. If necessary, clean or replace the anodes. Martyr recommends that if a vessel is in fresh water for more than two weeks, an alternative anode system suitable for fresh water situations be used.

Magnesium anodes, on the other hand, have a much higher driving voltage than zinc or aluminum, making them ideal for use in fresh water; however, they will become very active in salt water, where they will likely last only a few months. Protected surfaces can accumulate an off-white calcareous deposit that is difficult to remove.

Magnesium anodes are not intended for prolonged use in salt water, and if you plan to leave your boat in salt water for more than seven days (fourteen days in any given year), you should consider replacing the anodes.


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