FilterMAG

FIND OUT WHY YOUR ENGINE NEEDS ....


... FINISHES THE JOB YOUR FILTER STARTED
FIRST FOUR APPOINTED UK DISTRIBUTOR

MAKES FILTERS WORK BETTER

Did you know that your oil filter only filters particles down to 20 microns?

FilterMag traps and holds particles down to 2 microns.

See here how FilterMAG helps protect your engine from serious damage

It's the tiny steel particles that evade your vehicle's oil filter that cause the wear in your engine. These particles are a product of the normal running of an engine — an inevitable result of the interaction of rapidly moving metal parts inside your engine. Have a look at the cutaway filters below to see how much damaging abrasive metallic material is attracted to the FILTERMAG, preventing it from circulating around your engine, silently causing wear to vital components whilst you drive.

These cut away oil filters (with their FilterMAG™'s still attached) shown above demonstrate graphically how the FilterMAG™ has captured thousands of metal particles that were missed by the oil filter. The powerful magnetic filtration enhancement system has completed the job begun by the traditional oil filter.

BUY ONCE - USE FOR LIFE

Your lubrication system attempts to supply a very thin film of oil (around 10-micron thick) on the metal parts so they glide against each other rather than grind. Nevertheless, any tiny particles of metal which are missed by standard oil filters are able to penetrate this film due to the velocity of the oil flow. In this way contaminated oil is able to gouge engine parts at the microscopic level. This contributes to the cycle of engine wear and the generation of further damaging particles.

FilterMAG™ holds and traps steel particles against the inner wall of your oil filter before they can cause engine damage — resulting in a significantly cleaner flow of oil. FilterMAG's powerful Neodymium magnets deploy a powerful unidirectional magnetic force to enhance the purity of your lubrication system.

Modern oil filters remove particles by forcing the oil through paper-based media with very small ports. The technology behind this filtering media is a compromise that has remained relatively unchanged since the 1930s. While oil is necessary to remove these damaging particles, it is equally important that it flows back into the engine fast enough to lubricate all the moving parts.

A perfect oil filter media would stop all the particles down to 1-micron (about 1/70th the thickness of a human hair). Unfortunately, a filter with ports that small would also restrict the oil from returning to the engine fast enough, resulting in catastrophic equipment failure.

Filter material developments over the years have certainly increased the life cycle for oil filtration cartridges, but fluid dynamics require the ports in the media to remain 25-microns or larger.