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AMSOIL Motorcycle Octane Boost (MOB)

AMSOIL Motorcycle Octane Boost

AMSOIL Motorcycle Octane Boost

 

AMSOIL Motorcycle Octane Boost

Maximizes Power and Efficiency

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AMSOIL Motorcycle Octane Boost (MOB) increases octane for power and efficiency. It is designed to improve startup performance and eliminate engine ping and knock for increased power at low-rpm operation. Motorcycle Octane Boost contains detergents that help combustion chambers and fuel delivery systems maintain cleanliness for optimum performance. At the recommended treat rate, it does not harm catalytic converters or oxygen sensors and is compatible with all other AMSOIL fuel additives.

Maximizes Power & Performance
When treated at 1.3 oz. per gallon of fuel, MOB increases the octane of gasoline up to three numbers. Increased octane improves power and can eliminate performance-robbing and potentially damaging engine knock or ping (see below).

Motorcycle Octane Boost

Improves Low-rpm Performance
Engine knock is especially noticeable in some motorcycles during idle or low-rpm operation and high-temperature driving. Most modern bikes are equipped with sophisticated knock-detection systems that can alter spark timing and the air-to-fuel mixture until knock ceases. Although these systems protect the engine from damage, they can also cause reduced horsepower and poor low-rpm operability. AMSOIL MOB helps reduce the need for knock-detection systems to compensate, ensuring maximum low-rpm power and performance in modern bikes.

Cleans Harmful Deposits
Because Motorcycle Octane Boost contains active detergents, it can help maintain efficiency. For clean up, however, AMSOIL recommends treating gasoline with AMSOIL Quickshot®, which contains a greater concentration of cleaning agents.

What is engine knock and why does it matter?
The tendency of a hydrocarbon fuel, such as gasoline, to knock is measured by its octane number. Lower numbers denote a greater knock tendency; higher numbers denote greater knock control. “Engine knock” is a reference to the sound made from an uncontrolled and early ignition of fuel in the combustion chamber. It causes a knocking or pinging sound, robs the engine of power and can cause catastrophic engine damage. Knock may be eliminated by increasing the fuel’s octane.

What is Research Octane Number?
Research Octane Number (RON), Motor Octane Number (MON) and Anti-Knock Index (AKI) are the three most common octane ratings. AKI, the rating with which most North American motorists are familiar, is typically displayed on gas pumps as the average of the fuel’s RON and MON [(R+M)/2]. RON, however, is the most common industry rating. Therefore, AMSOIL uses the RON rating when conducting performance tests and product validation. Gasoline’s RON generally is a few numbers higher than the AKI posted on the gas pump (e.g. 87 octane fuel, or regular pump gas, has a RON of about 91-92).

 Motorcycle Octane Boost

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When marketing their products, some additive manufacturers have adopted a points system where 10 points equals one octane number. A claim that an additive increases octane 30 points translates into an increase of three octane numbers. This approach is often used only to artificially strengthen marketing claims and is not endorsed by AMSOIL.

Treat Rate
One 4-oz. bottle of AMSOIL Motorcycle Octane Boost treats four to six gallons of gasoline. Slight overtreatment causes no issues,

APPLICATIONS
Motorcycle Octane Boost is primarily recommended for use in four-stroke air- or liquid-cooled motorcycles manufactured by Harley-Davidson®, Yamaha®, Honda®, Ducati®, BMW®, Triumph® and all other four-stroke motorcycles. It may be used in off-road applications, including ATVs, UTVs and snowmobiles, as an alternative to AMSOIL DOMINATOR® Octane Boost. Note: Clean spills immediately using a clean towel. If left standing, Motorcycle Octane Boost can stain painted or metal surfaces. If cleaned immediately, there is no need for concern.

AMSOIL,Motorcycle,Octane,Boost,efficiency,performance,engine,operation,combustion,chambers,systems

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Change Air Filter on Ford Edge–Video | Change air filter Ford Edge.

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change air filter on Ford Edge

Well, I wanted to change air filter on Ford Edge, so I shot some video. Here is how to change the air filter on a Ford Edge. The video is at the bottom. Now I can run for 4  years on this filter, and the Edge will be wore out by then. It’s supposed to be cleaned once a year. Minimal maintenance.

AMSOIL Ea Air Filters represent a major breakthrough in filtration technology. The revolutionary nanofiber technology used in AMSOIL Ea Filters captures more dirt, holds more dirt and allows better air flow than conventional air filters. AMSOIL Ea Filters improve engine performance and help engines last longer.

Absolute Efficiency
AMSOIL Ea Air Filters rank among the most efficient filters available to the auto/light-truck market. Ea Air Filters’ synthetic nanofiber media removes 5 times more dust than traditional cellulose media alone and 50 times more dust than wet gauze filter media. AMSOIL Ea Air Filters have a service life of 100,000 miles or four years, whichever comes first.

Better Air Flow
AMSOIL Ea Air Filters allow more airflow than filters that use cellulose media alone. Cellulose fibers are larger than nanofibers, and have larger spaces between the fibers, causing contaminants to load in the depth of the media and plug the airflow path, which results in higher restriction and less capacity. The synthetic nanofibers in Ea Filter media have submicron diameters and small interfiber spaces, which result in more contaminants being captured on the surface of the media and lower restriction.

change air filter on Ford Edge

change air filter on Ford Edge

 

change air filter on Ford Edge

More Capacity
AMSOIL Ea Air Filters hold up to 2.5 times more contaminants than cellulose air filters. Since the nanofibers in the media are so small there are more pores per square inch, allowing for higher dirt-holding capacity and lower pressure drop when compared to cellulose filter media alone. Thinner media fibers produce more uniform pore size distribution, improving the filter’s overall quality and ability to capture and retain particles. Testing shows that Ea Air Filters hold 15 times more contaminants than a wet gauze-type filter.

Cleanable – Longer Life
When cleaned according to AMSOIL specifications and used in normal service, AMSOIL Ea Air Filters are guaranteed for 100,000 miles or four years, whichever comes first. Ea Air Filters remain effective for 25,000 miles or one year before requiring cleaning. This coincides with the AMSOIL 25,000-mile/one-year motor oil drain interval, adding even more convenience for motorists by consolidating routine maintenance. (See below for cleaning instructions.)

Click to see larger version of Filter Capacity graph
Change air filter Ford Edge

AMSOIL Ea Air Filters hold 15 times more dust than a wet gauze type filter.
AMSOIL Ea Air Filter media removes 5 times more dust than traditional cellulose filters and 50 times more dust than wet gauze.

 

change air filter on Ford Edge

Applications
AMSOIL Ea Air Filters provide superior air filtration for vehicles in the auto/light truck market.

Cleaning
Ea Air Filters should be cleaned every year or 25,000 miles, whichever comes first. Carefully remove the filter from the housing. Clean the housing with a shop towel, being careful not to knock contaminants into the air inlet. Filters can be cleaned by carefully vacuuming the filter media on the dirty side, or by holding the filter with one hand and carefully blowing the filter media at a 45-degree angle on the clean side using low-pressure shop air (15-20 lbs. psi).

Service Life
AMSOIL Ea Air Filters are guaranteed for four years or 100,000 miles, whichever comes first. The guarantee applies only if the filter has been serviced according to AMSOIL recommendations. In off-road, frequently dusty or other severe-duty applications, clean and change more often as determined by operating conditions or as indicated by restriction gauge.

AMSOIL Warranty
AMSOIL warrants that its filtration products are fit for use according to AMSOIL’s recommendations and warrants its products to be free of defective materials, design and workmanship.

 

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change air filter on Ford Edge

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Does Your Differential Feel Neglected? Synthetic Gear Oil

Does Your Differential Feel Neglected? Change to synthetic gear oil

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Many truck and SUV owners personalize their vehicles with aftermarket products such as lift kits, tires and rims, custom grills, paint, wheel well flairs and engine upgrades. While these upgrades and accessories can increase engine performance and add plenty of visual appeal, they do nothing for extending drivetrain life like synthetic gear oil can do.  Most people perform proper engine maintenance and change their engine oil on a regular basis, but according to one quick lube business, only about two percent of its customers purchase differential gear lube changes. Even fewer change to synthetic gear oil. Sometimes this out of sight, out of mind differential neglect results in costly gear failure, leaving the motorist stranded on the highway.

synthetic gear oil

differential drain plug

There are two basic ways to change differential gear lube to synthetic gear oil. The old fluid may be drained or suctioned out and the differential refilled with new gear lube, or the differential cover may be removed to allow more of the old gear lube to drain out and allow access to the magnet inside the differential. Unlike engines, differentials are not equipped with filters. Instead, magnets that are open to the entire gear lube sump are used to catch some of the metal wear particles. When changing differential fluid, the magnet should be cleaned to ensure the new gear lube does not
become contaminated.

After draining the old fluid and cleaning the magnet, the differential cover should be re-installed and the differential filled with the correct viscosity grade of AMSOIL SEVERE GEAR® Synthetic Gear Lube. The use of cleaning solvents is not recommended. Initial differential oil changes are recommended by some manufacturers after the first 500 to
3,000 miles. synthetic gear oil

synthetic gear oil

Even when vehicle manufacturers do not specify to change the factory-fill gear lube to remove wear particles, it is a
good practice to do so. For optimum gear and bearing life, AMSOIL recommends the factory-fill differential gear lube
be changed no later than the first 5,000 miles with new or rebuilt gears, followed by 50,000 mile drain intervals in
severe service or 100,000 mile drain intervals in normal service when using AMSOIL synthetic gear lubes.

synthetic gear oil

synthetic gear oil

synthetic gear oil

AMSOIL recommends any one of three SEVERE GEAR viscosity grades, 75W-90, 75W-110 or 75W-140, for turbo diesel or 4×4 trucks, SUV’s and automobiles.

SEVERE GEAR 75W-90 (SVG) replaces competitive 75W-90 and
80W-90 gear lubricants and delivers the optimum fuel efficiency and cold temperature performance of all the SEVERE GEAR gear lubes.

SEVERE GEAR 75W-110 (SVT) replaces competitive 75W-110, 75W-90 and 80W-90 gear lubricants and delivers increased fluid film wear protection over lighter viscosity fluids and better fuel efficiency than 75W-140 gear lubes.

SEVERE GEAR 75W-140 (SVO) replaces competitive 75W-140, 80W-140 and 85W-140 gear lubes in applications where these viscosities are recommended by equipment manufacturers.

Also don’t forget to look at the RACING gear oil options.

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Family Handyman Magazine Gets it Right on Synthetic Oil Myths – almost : Amsoil Engine Flush.

Amsoil Engine Flush

Family Handyman magazine

Family Handyman Magazine had a short tip on the 4 Big Synthetic Oil Myths. www.familyhandyman.com

The big four myths listed were;

  1. You have to flush the engine before you can run synthetic oil in it. FALSE. You should NEVER flush your engine. All carmakers warn against this practice. (editorial comment; this is the one reaction we disagree with)
  2. Synthetic oil causes leaks. FALSE. This was true 25 years ago. Not anymore. Current formulations contain seal conditioners to prevent leaks.
  3. Once you switch to synthetic, you can’t go back to regular oil. FALSE. No truth whatsoever to this one.
  4. Since synthetic oil flows better when cold, I can ignore the manufacturer’s recommendations for 5W- 20 and use 10W-30. FALSE. Heavier weight oil reduces fuel efficiency and can mess up valve timing mechanisms. Stick with the manufacturer’s oil weight recommendations.

Amsoil Engine Flush

In general, Family Handyman gets it straight on these tips. These have each been a long standing myth so it’s good to get a major magazine to clear the air. We agree with their reaction to tips 2,3, and 4.

Engine Flush

Amsoil has sold an engine flush product for years. In many cases, it’s not needed. However, in certain cases it’s a proper product to use to transition a car to synthetic oil. It’s been used in thousands of vehicles by thousands of Amsoil customers with no issues.

Amsoil Engine Flush

Amsoil Engine Flush AMSOIL Engine and Transmission Flush (FLSH) helps restore fuel economy, increase operating efficiency and reduce emissions in gasoline and diesel engines, and automatic transmissions. Its potent, detergent-based formula cleans sludge and deposit build-up, promoting lower operating temperatures and reduced oil consumption. AMSOIL Engine and Transmission Flush is safe on parts and can be easily disposed of with waste oil. Amsoil Engine Flush

Restores Vehicles to Like-New
New engines and transmissions run more efficiently, but over time they gather harmful deposits that cause power and performance loss. Stop-and-go driving, prolonged idling, short trips that do not allow the engine to reach full operating temperature, towing, the ingestion of airborne dirt, fuel dilution, water condensation and oxidized oil all can promote sludge build-up in motor oil and transmission fluid. As it settles, sludge clogs narrow oil passages, restricting oil flow to vital parts, especially the upper valve train area. Amsoil Engine Flush

In transmissions, deposits can form on clutch plates, causing hesitation and erratic shifting. Ultimately clutch glazing can set in, reducing the life of the transmission. Deposits in engines and transmissions can accelerate wear, causing power loss and increased fuel consumption. Amsoil Engine Flush

• Cleans engines and transmissions for improved efficiency, fuel economy and lower emissions
• Prolongs equipment life
• Detergent-based formula more environmentally friendly
• Compatible with seals and gaskets
• One-treatment results
• Easily disposed of with waste oil

Installing new oil or transmission fluid into a dirty vehicle may not be enough to remove deposits and increase efficiency. The detergents and dispersants in some lubricants may not be able to handle leftover sludge and deposits, and the new lubricant soon becomes unfit for service, accelerating the formation of even more harmful deposits. Amsoil Engine Flush

AMSOIL Engine and Transmission Flush Benefits
Unlike many flush products, AMSOIL Engine and Transmission Flush features a multi-use formulation that dissolves and disperses sludge, varnish and deposits in both engines and automatic transmissions. Due to its detergent-based formulation, used AMSOIL FLSH can be easily disposed of with waste oil, making it more user-friendly. Its advanced formula of light base oil technology, powerful detergents and dispersants provides safe cleaning action. AMSOIL FLSH is compatible with both petroleum and synthetic oils, preparing poorly maintained equipment for installation of new oil. It represents the first step toward restoring neglected equipment to top-notch performance. AMSOIL Engine and Transmission Flush provides the following benefits in only one treatment:

Gasoline and Diesel Engines

• Helps loosen sticky valves and rings, minimizing blow-by and reducing emissions
• Helps quiet lifter noise
• Promotes lower operating temperatures through sludge removal
• Easy disposal

Automatic Transmissions

• Cleans deposits in oil cooler and ports
• Helps unclog fluid passages
• Cleans deposits and varnish from clutch plates, helping improve efficiency
• Promotes smoother operation and transmission life through reduced shift delay

Applications
AMSOIL Engine and Transmission Flush is recommended for diesel and gasoline engines, and automatic transmissions. It is not recommended for CVT transmissions or differentials.

Directions for Use
Though it works in one treatment, AMSOIL Engine and Transmission Flush is safe enough to be used at every oil change. If using a flushing machine, follow the manufacturer’s recommendation. Otherwise, use the following guidelines:

Engine: Add 16 oz. bottle of AMSOIL Engine and Transmission Flush to engine oil fill port. Idle the engine for 10-15 minutes, then immediately drain the oil. Ensure enough time for the system to completely
drain. Remove and replace the engine oil filter. Refill engine with new engine oil in the viscosity grade recommended by the manufacturer.

Transmission: Engage emergency brake. Add 16 oz. bottle of AMSOIL Engine Flush to transmission oil fill port. Idle for 10-15 minutes; shift through drive and reverse. Do NOT place vehicle under heavy load. Drain entire transmission and torque converter of fluid. FILTER MUST BE CHANGED prior to refilling with new transmission fluid.

NOTE: It is not recommended to flush transmissions that do not have a removable pan or access to the transmission filter.

 

Amsoil Engine Flush

Amsoil Engine Flush

 

 

 

 

 

 

 

(above) Automatic transmission clutch plates pre-cleanup. Varnish and glazing is heavy on some of the plates.

Amsoil Engine Flush

Amsoil Engine Flush

 

 

 

 

 

 

 

(above) Automatic transmission clutch plates after cleanup with AMSOIL Engine Flush reveal lighter glazing and varnish.

Amsoil Engine Flush

Amsoil Engine Flush

 

 

 

 

 

 

 

(above) Cylinder head pre-cleanup. Note the sludge deposits on and around the valve springs and push rod openings.

Amsoil Engine Flush

Amsoil Engine Flush

 

 

 

 

 

 

 

(above) Cylinder head after cleanup with AMSOIL Engine Flush. The valve springs and push rod openings are noticeably cleaner, with fewer sludge deposits. The manufacturer’s stamping is more easily seen.

http://www.syntheticoilhq.com

Diesel fuel treatment

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Two cycle Engine Applications and Lubrication

Two cycle Engine

Applications and Lubrication Needs

The best two cycle engine oil

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Two cycle engines can be found nearly everywhere these days. They are used in dozens of applications and in a wide variety of designs for everything from work and recreation to power generation. two cycle engines have design differences and operate under conditions that require different oil chemistries than their four-cycle counterparts. In order to recommend a lubricant for a two-cycle engine, one needs to know how this engine operates, why it is used in place of a four-cycle engine and where and in what type of applications it is used.

Two cycle Engine

What is a two cycle engine? How do two cycle engines work?

Two cycle engine

Two cycle engine

The terms “two-cycle” and “two-stroke” are often inter-changed when speaking about two cycle engines. These engines derive their name from the amount of directional changes that the pistons make during each power stroke. Internal combustion engines are used to produce mechanical power from the chemical energy contained in hydrocarbon fuels. The power-producing part of the motor’s operating cycle starts inside the motor’s cylinders with a compression process. Following this compression, the burning of the fuel-air mixture then releases the fuel’s chemical energy and produces high-temperature, high-pressure combustion products. These gases then expand within each cylinder and transfer work to the piston. Thus, as the engine is operated continuously, mechanical power is produced. Each upward or downward movement of the piston is called a stroke. There are two commonly used internal combustion engine cycles: the two-stroke cycle (Two cycle engine) and the four-stroke cycle.

Two cycle Engine

How are two cycle engines different from four-cycle engines?

Two cycle engine

Two cycle engine

The fundamental difference between two cycle engines and four-cycle engines is in their gas exchange process, or more simply, the removal of the burned gases at the end of each expansion process and the induction of a fresh mixture for the next cycle. The two cycle engine has an expansion, or power stroke, in each cylinder during each revolution of the crankshaft. The exhaust and the charging processes occur simultaneously as the piston moves through its lowest or bottom center position.

In a four-cycle engine, the burned gasses are first displaced by the piston during an upward stroke, and then a fresh charge enters the cylinder during the following downward stroke. This means that four-cycle engines require two complete turns of the crankshaft to make a power stroke, versus the single turn necessary in a two-cycle engine. In other words, two-cycle engines operate on 360 degrees of crankshaft rotation, whereas four-cycle engines operate on 720 degrees of crankshaft rotation.

Where are two cycle engines used?

Two-cycle engines are inexpensive to build and operate when compared to four-cycle engines. They are lighter in weight and they can also produce a higher power-to-weight ratio. For these reasons, two-cycle engines are very useful in applications such as chainsaws, Weedeaters, outboards, lawnmowers and motorcycles, to name just a few. Two-cycle engines are also easier to start in cold temperatures. Part of this may be due to their design and the lack of an oil sump. This is a reason why these engines are also commonly used in snowmobiles and snow blowers.

Some advantages and disadvantages of two-cycle engines

Because two-cycle engines can effectively double the number of power strokes per unit time when compared to four-cycle engines, power output is increased. However, it does not increase by a factor of two. The outputs of two-cycle engines range from only 20 to 60 percent above those of equivalent-size four-cycle units. This lower than expected increase is a result of the poorer than ideal charging efficiency, or in other words, incomplete filling of the cylinder volume with fresh fuel and air. There is also a major disadvantage in this power transfer scenario. The higher frequency of combustion events in the two-cycle engine results in higher average heat transfer rates from the hot burned gases to the motor’s combustion chamber walls. Higher temperatures and higher thermal stresses in the cylinder head (especially on the piston crown) result. Traditional two-cycle engines are also not highly efficient because a scavenging effect allows up to 30 percent of the unburned fuel/oil mixture into the exhaust. In addition, a portion of the exhaust gas remains in the combustion chamber during the cycle. These inefficiencies contribute to the power loss when compared to four-cycle engines and explains why two-cycle engines can achieve only up to 60 percent more power.

How are two-cycle engines lubricated?

Two-cycle motors are considered total-loss type lubricating systems. Because the crankcase is part of the intake process, it cannot act as an oil sump as is found on four-cycle engines. Lubricating traditional two-cycle engines is done by mixing the oil with the fuel. The oil is burned upon combustion of the air/fuel mixture. Direct Injection engines are different because the fuel is directly injected into the combustion chamber while the oil is injected directly into the crankcase. This process is efficient because the fuel is injected after the exhaust port closes, and therefore more complete combustion of fuel occurs and more power is developed. Direct injection engines have a higher power density than traditional two-cycle engines. Because the oil is directly injected into the crankcase, less oil is necessary and lower oil consumption results (80:1 range). Direct Injection motors have higher combustion temperatures, often up to 120F. They also require more lubricity than traditional two-cycle motors.

 

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