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New Dominator® Coolant Boost – water wetter

New Dominator® Coolant Boost

Effective Heat Transfer, Enhanced Corrosion Protection

Buy Dominator Coolant Boost here, for $8.35/bottle. Discounts if you are a Preferred Customer

Racers demand lower engine operating temperatures in order to achieve maximum efficiency and horsepower on the track, while the straight water coolant used by many racers opens engines up to damaging radiator and water pump corrosion. New AMSOIL Dominator® Coolant Boost (RDCB) provides racers and motorists with significantly lower engine operating temperatures, quicker engine warm-up times and advanced corrosion protection.

Dominator Coolant Boost is formulated with proprietary tiered surfactant technology, providing quick and effective heat transfer inside radiator and cylinder heads, which results in reduced operating temperatures, more efficient operation, increased horsepower and significantly reduced engine warm-up times in cold weather. Coolant Boost also contains a robust mixture of corrosion inhibitors that protect the radiator, heater core, water pump, cylinder heads, engine block and intake manifold from the damaging effects of corrosion.

Temperature Reduction Dynamometer Test

To test the temperature reduction capabilities of Dominator Coolant Boost, dyno tests were performed on a Chevy 350 cubic inch engine with an aluminum block and cylinder heads. Running the test with both straight water and water treated with Coolant Boost, the engine was operated at 4,500 rpm until coolant temperature stabilized.
Coolant Mixture Temperature
Straight Water 221°F
Water with Coolant Boost 202°F
Test results show water treated with Coolant Boost provided a 19°F temperature reduction.

Aluminum Corrosion Test

The Aluminum Corrosion Test (ASTM D-4340) measures the corrosion protection properties of Dominator Coolant Boost in modern automobile and high-performance race engines with aluminum cylinder heads. A cast aluminum puck was heated to 275°F at 28 PSI and exposed to the test coolant mixture for one week. Weight loss of less than 1.0 mg is required to pass the test.

Coolant Mixture Weight Loss
Straight Water 3.97 mg/cm2/wk
Water with Coolant Boost 0.14 mg/cm2/wk
Test results show water treated with Coolant Boost easily passed the Aluminum Corrosion Test.

Metal Corrosion Test
The Metal Corrosion Test (ASTM D-2570) measures corrosion protection properties in automotive cooling systems. Using ASTM corrosive water designed to simulate hard and corrosive water in degraded coolant, six metal coupons constructed of the most common metals in automotive cooling systems were exposed to the test coolant mixture at 190°F. The coolant was maintained at a temperature and flow rate equivalent to the operating conditions seen in most passenger vehicles. Corrosive weight loss suffered during the test determines the additive’s corrosion protection properties.

Retail $11.10 per 16 oz Bottle

Racers demand lower engine operating temperatures in order to achieve maximum efficiency and horsepower on the track, while the straight water coolant used by many racers opens engines up to damaging radiator and water pump corrosion. AMSOIL Dominator® Coolant Boost (RDCB) provides racers and motorists with significantly lower engine operating temperatures, quicker engine warm-up times and advanced corrosion protection.

Dominator Coolant Boost is formulated with proprietary tiered surfactant technology, providing quick and effective heat transfer inside radiators and cylinder heads, which results in reduced operating temperatures, more efficient operation, increased horsepower and significantly reduced engine warm-up times in cold weather. Coolant Boost also contains a robust mixture of corrosion inhibitors that protect the radiator, heater core, water pump, cylinder heads, engine block and intake manifold from the damaging effects of corrosion.

Temperature Reduction Dynamometer Test
To test the temperature reduction capabilities of Dominator Coolant Boost, dyno tests were performed on a Chevy 350 cubic inch engine with an aluminum block and cylinder heads. Running the test with both straight water and water treated with Coolant Boost, the engine was operated at 4,500 rpm until coolant temperature stabilized.

COOLANT MIXTURE	STABILIZED COOLANT TEMPERATURE
Straight Water	221°F
Water with Coolant Boost	202°F

Test results show water treated with Coolant Boost provided a 19°F temperature reduction.

Aluminum Corrosion Test
The Aluminum Corrosion Test (ASTM D-4340) measures the corrosion protection properties of Dominator Coolant Boost in modern automobile and high-performance race engines with aluminum cylinder heads. A cast aluminum puck was heated to 275°F at 28 PSI and exposed to the test coolant mixture for one week. Weight loss of less than 1.0 mg is required to pass the test.

COOLANT MIXTURE	WEIGHT LOSS
Straight Water	3.97 mg/cm2/wk
Water with Coolant Boost	0.14 mg/cm2/wk

Test results show water treated with Coolant Boost easily passed the Aluminum Corrosion Test.

Metal Corrosion Test
The Metal Corrosion Test (ASTM D-2570) measures corrosion protection properties in automotive cooling systems. Using ASTM corrosive water designed to simulate hard and corrosive water in degraded coolant, six metal coupons constructed of the most common metals in automotive cooling systems were exposed to the test coolant mixture at 190°F. The coolant was maintained at a temperature and flow rate equivalent to the operating conditions seen in most passenger vehicles. Corrosive weight loss suffered during the test determines the additive’s corrosion protection properties.

METAL	STRAIGHT WATER WEIGHT LOSS	WATER WITH COOLANT BOOST WEIGHT LOSS
Copper	66mg	7mg
Solder	120mg	0mg
Brass	59mg	3mg
Steel	54mg	0mg
Cast Iron	117mg	0mg
Cast Aluminum	89mg	0mg

Test results show water treated with Coolant Boost significantly reduced weight loss due to corrosion.

Recommendations
Dominator Coolant Boost is recommended with both racing applications using straight water coolant and automotive applications using 50/50 coolant/water mixtures.

Directions: With engine off and cool, make sure cooling system is filled with selected coolant. Shake bottle and pour calculated amount of Coolant Boost into radiator. Start engine, turn heat on high and run for 15 minutes. Do NOT use distilled water unless mixed with 50% antifreeze.

Dosage: For straight water applications, add 2 fl. oz. of Coolant Boost per quart of tap or softened water. For 50/50 coolant/water applications, add 1 fl . oz. of Coolant Boost per quart of 50/50 mix.

Frequency: In applications using Coolant Boost with straight water, drain and re-fill the coolant system and add Coolant Boost once per year or when indicated by color change. A distinctive pH color change indicates when the pH has fallen to a point where corrosion can set in. When the Coolant Boost/water mixture changes from pink to clear, another dosage of Coolant Boost should be added. Monitoring the pH level will ensure all vital areas of the cooling system are protected against corrosion.

In applications using Coolant Boost with 50/50 coolant/water mixtures, add Coolant Boost once per year or every 30,000 miles, whichever comes first. Follow coolant manufacturer recommendations for coolant change intervals.

Posted on August 1, 2010 by jl, 3 comments

Amsoil Tow package protection for heavy towing

Purchase by using the hyperlinks in this page

AMSOIL Synthetic Automatic Transmission Fluids and Severe Gear® Synthetic

Gear Lubes Provide Maximum Protection for Extreme Operating Conditions

Whether hauling heavy tools and equipment to a job site or towing a boat for a relaxing weekend on the lake,
many vehicles are subjected to extreme operating conditions and hot temperatures in the summer, placing an
increased level of stress on drive train components. New vehicles such as turbo-diesel trucks and vehicles
with V-10 engines boast more horsepower and torque than their predecessors, but differential designs have remained virtually unchanged. Differentials today are subjected to severe-duty service and encounter more stress and heat than was seen only a few years ago. Modern gear oils are faced with the challenge of providing adequate wear protection during severe service operating conditions, while also providing maximum fuel efficiency.

The extreme pressures and temperatures generated by modern vehicles increase stress on gear lubricants and can lead to a serious condition known as thermal runaway. As temperatures in the differential climb upward, gear lubricants lose viscosity and load carrying capacity. When extreme loads break the lubricant film, metal-to-metal contact occurs, increasing friction and heat. This increased friction and heat, in turn, results in further viscosity loss, which further increases friction and heat. As heat continues to spiral upward, viscosity continues to spiral downward. Thermal runaway is a vicious cycle that leads to irreparable equipment damage from extreme wear, and ultimately catastrophic gear and bearing failure.

Many people overstress their vehicles in the summer. It is not uncommon to see vacationing families driving around in overloaded vehicles. The roof rack is filled with equipment, the back seat is filled with bags and the suspension is bottomed out. Some vehicles also pull trailers or fifth-wheels with boats, and some of these vehicles exceed their rated towing limits. As vehicle stress increases, transmission and differential temperatures rise and cause conventional lubricants to thin, resulting in inadequate lubrication that can lead to component failure. In addition, some vehicle manufacturers require the factory-fill differential gear lube to be changed within the first 3,000 miles, or the first 500 miles if towing, a fact not known by many consumers. Because differentials go through a break-in period and are not equipped with filters like transmissions and engines, the gear lube must be changed in order to drain the break-in wear particles. These particles, if left in the differential, mesh between the gears and cause gear or bearing wear.

Recent studies show that most differential wear occurs in the fi rst 5,000 miles. The AMSOIL “Tow Package”
AMSOIL Synthetic Automatic Transmission Fluids (ATF, ATL) and Severe Gear Synthetic Gear Lubes (SVG, SVT, SVO) provide maximum protection in demanding environments such as towing, hauling and commercial use, providing increased lubricant film protection and reduced wear at elevated temperatures. They are formulated for extended drain intervals of up to 50,000 miles in severe service and 100,000 miles in normal service, or longer where specified by the vehicle manufacturer.

Posted on July 27, 2010 by jl, 1 comment

Marine Dual Remote Oil Filtration System

The Marine Dual Remote Filtration System (BMK18) offers easily accessible remote mounting capability for a full-flow spin-on oil filter and a spin-on by-pass oil filter. This unique combination of both full-flow and by-pass filtration on a single mounting manifold is the only system of this kind designed specifically for marine applications.

Marine Dual Remote Filtration System

Marine Dual Remote Filtration System
(BMK-18)
The BMK18 is packaged in kit form, which includes the Dual filter mount, mounting hardware, hoses, hose fittings, component parts and installation instructions. In addition, adapter kits of four different sizes enable the BMK18 to be installed on a wide variety of recreational and light commercial marine engines.

See Pricing Information or Place an Order

Product Description
The Marine Dual Remote Filtration System (BMK18) offers easily accessible remote mounting capability for a full-flow spin-on oil filter and a spin-on by-pass oil filter. This unique combination of both full-flow and by-pass filtration on a single mounting manifold is the only system of this kind designed specifically for marine applications.

Improved Performance
The effects of marine engines running predominantly at or near full throttle after extended periods of non-activity include high operating temperatures and increased potential for wear on engine components. Dual remote filtration is a highly efficient filtering process capable of removing the vast majority of particles in the 5-20 micron range; those that cause the most wear. Dual remote filtration also has the ability to effectively remove particles down to one micron in size. The AMSOIL Marine Dual Remote Filtration System (BMK18) offers a clear advantage by providing better oil filtration, increased oil capacity and longer oil and filter life.

Reduces Heat
The BMK18 requires a one- to two-quart oil volume increase, offering increased oil cooling capabilities. The additional hoses, fittings, filters and aluminum mount assemblies also allow the engine oil to dissipate heat more efficiently as it passes through the filtration system, extending the service life of both the engine and the engine oil..

Outstanding Durability
The Marine Dual Remote Filtration System is designed to be used in harsh marine environments. The hose fittings are coated with a 3 ml layer of Alumiplate™ and 1 ml of zinc and yellow chromate. This Alumiplate coating is 10 times more corrosion resistant than standard zinc and yellow chromate plated fittings. While standard hydraulic fittings typically survive 96 hours in the grueling ASTM B-117 Salt Spray Test, the Alumiplate-coated AMSOIL Marine By-Pass System fittings lasted over 1,000 hours. In addition, the fasteners and mounting bracket are stainless steel and the hoses are U.S. Coast Guard approved.

Fewer Oil Changes
Depending on the boat owner’s hours of use, the improved filtration of the Marine Dual Remote System, along with the use of AMSOIL synthetic lubricants, could completely eliminate oil and filter changes during a typical boating season. With marine engines located in a relatively confined and remote space within the watercraft, ease of filter access and reduced oil spillage are also significant benefits of the BMK18.

Applications
A large number of marine diesel engines have by-pass oil filtration systems installed by the engine manufacturer. Until now, however, this technology has not been available to smaller pleasure boats and light commercial marine applications. The AMSOIL Marine Dual Remote Filtration System was specifically designed for recreational and commercial marine applications that use inboard or inboard/outboard stern drive engines.

The BMK18 is packaged in kit form, which includes the Dual filter mount, mounting hardware, hoses, hose fittings, component parts and installation instructions. In addition, adapter kits of four different sizes enable the BMK18 to be installed on a wide variety of recreational and light commercial marine gasoline-fueled engines, including those manufactured by Chris Craft, Chrysler, Crusader, Evinrude, Johnson, Gray Marine, Mercruiser, OMC, Pleasurecraft, Universal, Volvo Penta and Westerbeke.

The BMK18 kit offers a new heavy-duty, machined aluminum adapter and retaining nut that fits on the existing oil filter mount. Each adapter kit is application specific and must be ordered separately. Consult the Marine Dual Remote Application Guide (G2051) or www.amsoil.com for specific applications. Adapter kits are available for the most popular filter thread sizes. When ordering the BMK18, request one of the following adapter kits:

• BK195 for 3⁄4″ x 16 thread
• BK196 for 13⁄16″ x 16 thread
• BK197 for 18 mm x 1.5 mm thread
• BK198 for 20 mm x 1.5 mm thread

Also, for ease of installation in some applications, optional 90-degree fittings (BK199 and BK200) can be mounted on the filter adapter collar. These parts are also sold separately.

The AMSOIL Marine Dual Remote Filtration System represents the cutting edge of filtration technology, another example of the AMSOIL commitment to providing quality innovations that benefit consumers everywhere.

Specifics

Oil Capacity – 1 to 2 quart increase

Corrosion resistant – Yes

External oil filter changes – Yes

Remove moisture and condensation – Yes

Ease/convenience of maintenance – Yes

Contaminant removal – Down to 1 micron

BMK18 Adapter Kit Reference Guide (G-2051) (PDF – 23K)
BP239 Marine Dual Remote Filtration System Installation Instructions (PDF – 1.80MB)

Posted on July 18, 2010 by jl, Reply

Team Amsoil – Bob Teague win in sarasota

Buy amsoil boating products

Team AMSOIL Takes Checkered Flag in Sarasota

Team AMSOIL offshore racers Bob Teague and Paul Whittier competed at the Superboat Suncoast Offshore Grand Prix on Fourth of July weekend in Sarasota, Fla. Following 100 miles of testing in the calmer-than-normal Gulf of Mexico on Saturday, the conditions for Sunday’s race were much rougher.

When the green flag dropped, Team AMSOIL got stuck in traffic going into the first turn, allowing the new Stihl 388 boat to take the early lead before engaging in a close deck-to-deck battle with Team AMSOIL. Team AMSOIL caught and passed Team Stihl and extended its lead to about 11 seconds before being slowed by lapped traffic. While Team Stihl came within a boat length heading into the final outside turn, Team AMSOIL hit a large rogue wave which caused the boat to hook violently and end up on the wrong side of the turn buoy. Team AMSOIL was then forced to go back and “make up” the turn, allowing Team Stihl to cross the finish line first. However, post race inspections revealed Team Stihl’s propellers did not meet the required specifications for thickness, disqualifying them and awarding Team AMSOIL the checkered flag.

Team AMSOIL will next compete July 16-18 at the OPA/Geico race in Harrison Township, Mich.

Posted on July 15, 2010 by jl, Reply

BMW K1600 announced – video

German manufacturer BMW has today released the first information on its future touring models equipped with new high-tech six-cylinder in-line, K 1600 GT and K 1600 GTL.

Both models will be true showcases new technology and are powered by 6 cylinder engine 1.600cmc line, only this kind of market that will develop 160 hp at 7500 rpm and 175 Nm of torque huge at 5,000 rpm, 70 % of which is available from 1,500 rpm. The new engine benefits from the huge experience in the construction of the German manufacturer of engines with six cylinders in line engines that have made a great reputation due to great refinement and dynamic behavior.

K 1600 GT will be a touring model, as a concept similar to the current K 1300 GT, very comfortable and well equipped technologically and settings but with a slightly more sporty position than GTL model that still offers a high comfort level for long trips . 1600GT will have many features as standard such as xenon (HID), sleeves and heated board computer and cruise control.
K 1600 TWG will be touring the new high end BMW’s touring version of Super GT, with a more relaxing driving position designed to compete with the model of GL 1800 Goldwing Japanese manufacturer Honda. Scaritele are lowered and positioned forward, the handlebars is more elongated toward the pilot and passengers will also enjoy a very comfortable position, the standard Topcem taking place backrest. Standard will also include xenon headlights (HID), sleeves and heating, cruise control, trip computer, audio system and more.
In both models will come standard: three selectable injection maps (Rain, Road, Dynamic), BMW Integral ABS, ride-by-wire chassis and suspension Duolever Paralever, Multi-controller board and TFT.
The list will find optional: traction control system, ESA II electronically adjustable suspension and adaptive headlights (see video below), for the first time on a motorcycle. They have an electronic system that will adjust the beam of light depending on the angle of inclination and better illumination in turns.
Release date is still unknown but it is expected that new models make their first appearance at the EICMA Show in Milan, in the autumn.

Posted on July 9, 2010 by jl, Reply

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New Dominator® Coolant Boost – water wetter