The Science Of It All

“Parts Division” and Oil Additives: A Tale of Two StandardsnnThe “Parts Division” of many auto/vehicle manufacturers is the one division in which stockholders expect money will be made. After all, “Parts” is what people need as they make their cars last longer… and a lot longer than 20 or 30 years ago.nToday, the average motorist is making his car last twice as long as in years gone by.nnWhy?nnIt’s a basic economic fact: cars cost more, and in the short run, many families can barely justify a $400 budget breaker, as opposed to a new purchase of a $25,000 price tag.nnSo, the “Parts Division” – auto, truck, motorcycle and others – often has the “final say” in decisions about oil and additive recommendations for the vehicles produced by their manufacturer. After all, if “parts” isn’t making its typical “lions share” of corporate profits, stock holders complain and heads roll.nn“Built-in Obsolescence”: Nothing New in Corporate PracticennAll of which is a simple way of hinting at the fact that vehicle manufacturers must make sure that vehicles – and their parts – last just so long, before coming in for repairs. “Repairs” is where the money trail leads… to the pain of every American car, truck, and motorcycle owner.nnOur experience in working with oil additives showed us that fact in a hurry. Bringing an oil additive to vehicle manufacturers who, at first, were ecstatic about the results, gave us a real lesson in economics. In one case, the manufacturer’s representatives ran tests and found the oil additive performed significantly above even our results. However, they came back later and, rather sheepishly informed us they weren’t allowed to endorse the product.nn“Why?” was our shocked rejoinder. “Because “Parts” thinks it will cut into their revenues” was their rejoinder.nnRejoinders aside. “Built-in obsolescence” is no joke and it is practiced all the time. The corporate world exists to make stockholders happy, at our expense. But, this is particularly noxious in that vehicle manufacturers are often cited as the standard by which to judge oil additives and vehicle performance.nnWhat is really needed is a “hard look” at the science of oil additives.nnWhat Should an Oil Additive Do for Your Vehicle?nnFriction and heat are the enemy of moving metal parts.nnRegardless of the engine oil used, friction and heat will destroy an engine or any other piece of equipment with moving metal parts. Science tells us that moving metal parts need to be lubricated … or the friction of metal on metal will damage the vehicle’s combustion chamber.nnAn oil additive should reduce friction. That being reduced, overall engine heat should drop as a result. Overall engine protection is, of course, therefore enhanced.nnAn oil additive that really does its job, so to speak, needs to have the capacity to accomplish more than a few of the following tasks, if it really is going to make a difference to your billfold.nnHere’s a checklist. Then turn to our Part II and see how well the standard additives, including and especially those “recommended” by vehicle manufacturers, really performed. We’re betting you will be shocked… but not surprised.nnOil additive performance questionnaire (Retitled: “Parts Division Nightmare”):nn1. Does the oil additive scientifically reduce engine friction and wear, especially at start-up time?nn2. Does the oil additive scientifically promote less friction, thus maintaining normal oil viscosity at engine operating temperatures?nn3. Is the oil additive scientifically compatible with SAE specification oils and all non-petroleum-based synthetic oils?nn4. Can the oil additive scientifically reduce oil burning, and prevent “dry start-up”?nn5. Will the engine oil additive increase oil pressure and power?nn6. Does the oil additive scientifically maintain lower engine heat, thereby reducing oil thinning?nn7. Can the oil additive prevent, reduce or even eliminate environmentally destructive "blow by" gases from escaping?nn8. From a strictly scientific standpoint, will the oil additive provide a self sacrificing, protective, lubricating layer thus reducing wear on pistons, rings and bearings?nn9. If so, (number 9), will the oil additive lubricant stay on the metal or will it eventually flow down to the oil pan when the engine cools?nn10. Can the oil additive quiet noisy valves and lifters?nnBased upon the answers to the above answered questions:nnDoes the oil additive scientifically promote longer engine life and efficient, powerful performance?nnDoes the oil additive significantly improve fuel mileage by reducing internal friction in the engine?nnIs possible that the oil additive will bring significant improvement in compression, usable horsepower, gas mileage and overall performance?nnMust the oil additive be added to your engine oil at every oil change?nnCan the additive fortify the properties of motor oil, both traditional and synthetic?nnDoe the oil additive prevent oil breakdown caused by extreme temperatures?nnDoes the oil additive protect against scoring or seizing and create a highly polished, wear resistant finish on engine surfaces?nnCan the oil additive provide the same tremendous benefits for all 4 stroke engines such as: diesel engines, motorcycle engines, trucks, cars, classics, antique cars, tractors and farm vehicles, marine engines - inboard or outboard?nnIs it environmentally safe in today’s high-tech cars?nnDoes it produce upper cylinder lubrication, reduced acid and sludge build up, with the improved fuel economy?nnWill it cause any damage to oxygen sensors, fuel sensors or catalytic converters?nnIs it an acid-combating additive?nnDoes it cut down “wear metals” especially iron, copper, and lead which are normally the ones to watch?nnDoes it decrease engine wear?nnCan it be used as a differential additive?nnAsking such questions, narrows the field considerably. See how in Part II.nnn