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Corrosion Zero is a special corrosion preventative compound, an ultra thin hydrophobic film formulated without sulfates, chlorides, or halogens, that is unexcelled in preventing deterioration and contamination of all surfaces of electronic equipment and mechanical close-tolerance components. This corrosion inhibitor contains extremely long-lasting, specially formulated and proprietary anti-corrosive inhibitors that provide a superior lubrication coefficient.
Unlike rigid coatings, the Corrosion Zero film remains flexible and will not crack when the treated material is subject to vibration and/or thermal expansion or contraction. It is the flexibility of the film that makes Corrosion Zero extremely effective against fretting corrosion. Also, because the film is not rigid, the film tends to be "self healing" and will fill scratches that are caused by the mating and/or unmating of close tolerance parts.
In the photo of the steel plate shown on this page the right third was treated with Corrosion Zero, the left third with an oil-based corrosion prevention compound (CPC) and the middle was left untreated. It was then left for six months (4300 hrs) at sea. The difference is clear!
COMMON USES: Electronic circuitry, components, circuit boards, electrical motors & fixtures, relays and terminals, pins, resistors, light fixtures, all mechanical close-tolerance components, firearms, hand tools, rocker panels, cutting fluids, electronic signs, computer repair, meter & instrumentation manufacturers, etc.
PREP: For use on base metal.
DIRECTIONS: Apply a thin light uniform coat using spray, brush or by dipping.
USED BY: Electronic components manufacture, meter and instrumentation manufacture and repair; amusement parks; general manufacturing; mining; marine, metal fabricating, equipment maintenance, repair facilities and household maintenance.
Sewage Treatment Plants
Coal Fire Plants
PVC Chemical Plants
Salt Water Environments
· Unmanned Submersibles
· Oil Pipeline Meter Systems
· Harsh Condition Remote Communication Systems
· Recreational Boating (Both Electrical and Close Mechanical)
· Commercial Fishing Fleets (Electrical, Close Mechanical, Antennas)
Same outstanding protection as CORROSION ZERO
CORROSION ZERO UV is available only in bulk quantities (quart, gal & 55gal drum).
With minimal prep, Quik Tann III easily converts rust to a primed, paintable surface in 2-4 hours. Environmentally friendly - won't weaken the metal or irritate the skin. It's finished working when the areas of rust turn black. Unlike competing products with high acid contents, Quik Tann III stops working when the Iron Oxide is inert, the metal remains unaffected. Don't worry about overspray, won't harm fiberglass, rubber or painted surfaces. So safe, does not require protective clothing.
COMMON USES: any steel, iron or chrome rusted surfaces. Protects vulnerable metal surfaces from harsh environments.
PREP: BASE METAL MUST BE PRESENT. Brush off loose rust. Remove grease and dirt.
DIRECTIONS: Apply Quik Tann III to steel, iron, or chrome to convert rust to a primed, paintable surface. Spray, roll or brush on; cures in 2-4 hours. Surface is completely cured when area treated turns black and is dry to the touch. Once completely dry, area is ready for painting. Use when temperature is between 40 and 140 degrees fahrenheit. Should not be applied when metal is hot to the touch. If immediate application is require wet down surface prior to applying
CLEAN UP: Use soapy water to wash hands and clean rollers, brushes and sprayers.
SHELF LIFE: Up to 2 years.
Uses and Benefits
Quick Tann III Metal Preservation works with ferrous metals:
Carbon steel is a ferrous alloy with 0.05 to 2.0% carbon, and is known for its high tensile strength. It can be hardened to heat treatment, and is fairly ductile. Depending on the carbon content, carbon steel has been classified into three broad types. As the carbon content increases, the strength increases, but the ductility reduces. However, carbon steel is susceptible to rusting.
► Low-carbon Steel
Also known as mild steel, it is the most commonly used ferrous metal.
It Contains about 0.05 to 0.30% carbon and the rest is iron.
It is malleable and ductile, and bends easily.
It is used in the manufacture of nuts, screws, bolts, girders and other general metal products.
► Medium-carbon Steel
It contains about 0.30 to 0.60% carbon.
It is relatively harder and less ductile than low-carbon steel.
It is used in the manufacture of car components like axles, gears and crankshafts.
► High-carbon Steel
It contains 0.60 to 0.99% carbon, and may also contain small amounts of manganese, silicon, and copper.
It is the strongest and hardest of all carbon steels.
It is used to make blades, springs, and high-strength wires.
► Tool Steel
Also known as tool and die steel, it is specifically used for making machine parts, metal cutting tools and dies, as well as molds used for injection molding.
It contains 0.7 to 1.5% carbon, as well as molybdenum, tungsten, vanadium, and other metals.
It is resistant to heat, abrasion, and corrosion, unlike other carbon steels.
Also known as corrosion-resistant steel, it is an alloy of iron, nickel, and chromium.
The important property of stainless steel is its high resistance to corrosion owing to the presence of chromium.
It is tough and resistant to stains, hence, called stainless steel.
This steel can be welded, machined and shaped easily depending on the type of steel.
It is commonly used in kitchen cutlery and cookware, axles, desks, nails, medical instruments, kitchen draining boards, pipes, etc.
Cast iron, another commonly used ferrous metal, is made up of 2.1 to 4% carbon, 1 to 3% silicon, and 89 to 94% iron.
It is strong but brittle, and has a high compressive strength.
It is resistant to oxidation and corrosion.
It can be classified into different varieties like gray cast iron, white cast iron, malleable cast iron, and ductile cast iron.
Cast iron can be bronze-welded or arc-welded, and hardened or machined.
Cast iron is normally used in the manufacture of heavy crushing machinery, machine tool parts, brake drums, car cylinder blocks, machine handles, gear wheels, plumbing material, as well as several household items.
Wrought iron has a very low carbon content of 0.10 to 0.25%.
It is strong and tough, yet fibrous and ductile.
It is no longer produced commercially, and has been replaced by mild steel.
It was used to make ornamental gates, farm and garden equipment, railings, nails, wires, etc.
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Protects deep cell commercial and marine battery terminals from the harmful effects of Sulfuric Acid
In a car, boat, generator, etc. the battery supplies the electrical current that the starter motor requires to start the engine. It also provides power to the electrical components and accessories when the vehicle’s engine is off. When the electrical load exceeds the charging system’s capacity, the battery provides the extra current required. The battery also acts as a voltage stabilizer for the entire electrical system.
The white powder often found on a lead/zinc positive battery terminal is most often caused by over-filling the battery with either water or electrolyte. The electrolyte can weep from the plastic-to-lead seal in the battery case; if the battery is overcharged, sulfuric acid fumes will vaporize through the vent caps and react with the other metals. In addition, thermal expansion will force some of the liquid out of the battery vents causing a chemical reaction/corrosion.
Battery Pro works by creating a protective anti-corrosion thin coating that acts as barrier on the terminal and connectors to prevent the chemical reaction with other materials. Unlike the grease solutions often used today, Battery Pro does not absorb moisture.
For your convenience, Battery Pro comes with a cap brush assembly for easy application.
4 oz can - enough to treat 35 batteries!
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