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Announcement – Banks Performance/AMSOIL Partnership

Known for Being The Pinnacle of Performance, AMSOIL and Banks Make for Logical Partnership

Much more to be published on this in the future of course – here’s just a little about the two firms.

Endorsement To Better Serve Customer Base

Banks Power has recently endorsed AMSOIL as the lubricant of choice. As the premier design and manufacturer of power enhancing products for diesel and gas powered vehicles, Banks Power is well-known and respected in the diesel enthusiast community. Similar to AMSOIL, the company’s fundamental principles combine old fashioned business ethics and service with leading technology. Customers expect elegantly engineered products, superior construction, scientifically proven performance and competitive prices.

amsoil and banks performance partmership

Technological Achievements

Banks company history is studded with technological achievements. Including Gale’s pioneering work in turbocharging marine engines in 1969; the premiere of twin-turbo small block Chevy engines in 1978; the invention and patent of the Banks OttoMind electronic fuel management module in 1997; transmission control systems; and the recent invention and patent of the iDash DataMonster, the only instrument to calculate, log and display an exclusive suite of engine parameters, including manifold air density.

Engineering

First and foremost, Banks is an engineering firm. Established in 1958 Banks has grown to 100+ employees on a 12 acre campus. The mechanical engineering department is staffed with world class automotive experts who design and test the latest high performance equipment. In the Race Shop, special project vehicles feature cutting edge diesel and gasoline development, multiple turbo applications, mind-boggling horsepower and head turning style. Sophisticated electronic engineering technologies are applied to engine improvement in the rapidly growing Computer Systems Engineering Department. Gale Banks Engineering Designs turbocharged engines from the centerline of the crankshaft out.

Amsoil as included differential oil with banks products

“Banks Protected by AMSOIL”

Banks Protected by AMSOIL endorsement will appear on all digital media reaching millions of enthusiasts who have yet to experience the AMSOIL difference.

Creating further valuable exposure, Banks is offering its new differential cover bundled with four Easy Packs of the AMSOIL Severe Gear as the first fill lubricant coupled with a flyer with information on how to buy or find AMSOIL products.

Five reasons to use motorcycle oil in your bike

You can use Car Motor Oils in your Bike if you Add Two More Wheels.

You wouldn’t want to buy a used bike if motorcycle oil wasn’t used.

Impressive performance happens when you are using the right oil in the right application.

Len Groom | TECHNICAL PRODUCT MANAGER, POWERSPORTS

The results of a study from lubricant additive manufacturer Infineum caught my eye recently. A survey of 1,000 bikers revealed that fewer than 60 percent are using a motorcycle specific oil in their motorcycles. Interestingly, more than three quarters of respondents think they’re using a motorcycle oil. Clearly there’s confusion in the market that requires clarification.

Let’s start with why you should always use motorcycle oil in a motorcycle engine. I’ll boil it down to five key reasons.

1) Motorcycles run hotter

In general, automotive engines are water-cooled. A typical automotive engine can reach 235ºF (113ºC) during operation, which is plenty hot. Motorcycles, however, run even hotter, particularly big, air-cooled V-twins, like your average Harley Davidson. They rely on air flowing across the engine for cooling, which is inherently less efficient at dissipating heat. This configuration poses additional challenges in stop-and-go traffic when there’s little airflow, particularly on hot summer days. In fact, testing of a 2012 Harley Street Bob in our mechanical lab demonstrated an average cylinder head temp of 383ºF (195ºC).

Heat that intense causes some oils to thin and lose viscosity, which reduces wear protection. High heat also hastens chemical breakdown of the oil (called oxidation), which requires you to change oil more often. In extreme cases, the bike’s temperature sensors can shut down the engine if it gets too hot.

2) High rpm destroys lesser oils

Motorcycles tend to operate at engine speeds significantly higher than automobiles. Your average metric sport bike easily eclipses 10,000 rpm. Some have even pushed 20,000 rpm. Your car or truck’s redline doesn’t even come close. The hydrocarbon chains get ripped to shreds.. You can feel the after-effects through the peg and handle bars.

High rpm places additional stress on engine components, increasing the need for wear protection. It subjects oils to higher loading and shear forces, which can rupture the lubricant film and reduce viscosity, both of which increase wear. High rpm also increases the likelihood of foaming, which can reduce an oil’s load carrying ability, further inviting wear.

3) Increased power density = increased stress

Motorcycle engines produce more horsepower per cubic inch than automobiles. They also tend to operate with higher compression ratios. Increased power density and compression lead to higher engine temperatures and increased stress. This places greater demands on motorcycle oil to fight wear, deposits and chemical breakdown.

4) Must also protect transmission – prevent viscosity loss

Many motorcycles have a common sump supplying oil to both the engine and transmission. In such cases, the oil is required to meet the needs of both the engine and the transmission gears. Transmission gears can shear the oil as it’s squeezed between gear teeth repeatedly at elevated rpm, causing some oils to lose viscosity. Many motorcycles also incorporate a wet clutch within the transmission that uses the same oil. Motorcycle wet clutches require a properly formulated lubricant that meets JASO MA or MA2 frictional requirements.

5) Storage invites corrosion

Whereas automobiles are used almost every day, motorcycle use is usually periodic and, in many cases, seasonal. These extended periods of inactivity place additional stress on motorcycle oils. In these circumstances, rust and acid corrosion protection are of critical concern.

While a good passenger car motor oil (PCMO) hits many of these performance areas, it doesn’t get them all.

PCMOs usually contain friction modifiers to help boost fuel economy. Furthermore, PCMOs don’t meet JASO MA or MA2 requirements. If used in a motorcycle, they can interfere with clutch operation and cause slippage. And no rider wants to deal with a slipping clutch. Likewise, motor oils have no natural rust or corrosion resistance. Instead, corrosion inhibitors must be added to the formulation, and typical motor oils don’t contain them.

AMSOIL Synthetic Motorcycle Oil is designed for the unique demands of motorcycles. It’s formulated without friction modifiers for precise, smooth shifts. It also contains a heavy dose of corrosion inhibitors to protect your engine against rust during storage. And it’s designed to resist viscosity loss due to shear despite intense heat and the mechanical action of gears and chains.

Ensure your customers are using AMSOIL synthetic motorcycle oil in their bikes for the best protection this riding season.

And people who use car oil in their bikes probably use the term “drive” when referring to riding.