Saturday, 17 September 2011

The World's Most Powerful V8

Intake System

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The variable intake system is die-cast from magnesium. It uses a streamlined internal design and a vertical arrangement of intake and exhaust ports. The two internal electronically-operated throttle flaps can be fully opened in 0.1 seconds, giving better response. The air intake is a dual-flow design with two hotwire airflow meters.

Valvetrain

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The 32 valves are operated by bucket tappets. The intake valves are 40mm in diameter and the exhaust valves 34mm. Valve clearances are adjusted hydraulically. All four camshafts are continuously variable over a range of 42 degrees with the camshaft timing variation controlled electro-hydraulically.

Block

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The block uses a closed-deck design with a main bearing bedplate. Cast into the alloy are steel components that improve strength and "ensure a reliable oil supply". The engine block and cylinder heads are of cast aluminium-silicon alloys (AlSi7 and AlSi17) with the cylinder walls coated with a twin wire arc spraying (TWAS) process. This results in extremely low friction and wear accompanied by outstanding long-term durability. AMG-Mercedes claim the coating is twice as hard as conventional iron liners.
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During the TWAS process, two metallic wires and an atomising gas are brought together in a coating unit. Passing a high voltage through the tips of the wires breaks the gas molecules down to form a plasma, and the wire tips begin to melt. The atomising gas removes molten metal from the wire tips and sprays these particles onto the cylinder walls to be coated, where they solidify. This is preceded by a high-pressure water jet which roughens the cylinder walls so that the individual sprayed particles adhere to the surface during the TWAS coating process. The cylinder walls are then honed. During this process, the micro-pores in the sprayed coating are partially exposed, which enables them to retain oil when the engine is running and ensure favourable lubrication of the pistons and piston rings.

Internals

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The crank is forged 42CRMo4V steel alloy and uses five crankshaft bearings and six counterweights. The counterweights feature heavy metal core plugs, which mean that they can be made significantly more compact. Two lightweight connecting rods forged by the cracking process are connected to each of the four crank pins. The pistons are cast alloy.

Intelligent Thermostat

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The temperature of the coolant is variably controlled. In the interests of optimal in-engine friction and fuel economy, the temperature of the coolant can for example be lowered to 80 degrees Celsius under partial load. Under full load conditions the temperature is raised to 100 degrees "within milliseconds" to achieve the best possible engine cooling. The thermostat controlling the coolant temperature receives its instructions from the engine management system.

Electronic Control

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All engine functions are controlled and executed by a Bosch ME 9.7 control unit. Fuel injection, ignition, the variable intake manifold, camshaft adjustment and variable cooling are all controlled. The microprocessor has 10,000 different characteristic maps and functions in its memory, and is able to carry out up to 70 million individual operations per second.

Emissions

The new AMG 6.3-litre eight-cylinder engine meets all current exhaust emission standards. Exhaust treatment begins in the air-gap-insulated manifolds, which have a wall thickness of only 1 millimetre. All four ceramic catalytic converters feature thin-wall substrates. A secondary air injection system leads to higher exhaust gas temperatures and supports the heating-up process. It appears that the management system uses the input of the oxygen sensors to form a feedback loop at all engine loads.

Testing

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Trials of the new AMG 6.3-litre eight-cylinder engine were conducted in two stages. The development work started with analyses of basic mechanical functions, the oil circuit, power characteristics with various intake duct and camshaft configurations, plus the definition of fuel injection quantities, fuel consumption and exhaust emission values – all these were studied on the dynamic simulation test benches at Mercedes-AMG. Engines with outputs exceeding 735 kW/1000 hp can be dynamically tested in this facility.
After completion of the basic work in Affalterbach, the first test vehicles equipped with the new AMG eight-cylinder engine were sent onto public roads and test tracks in all the climatic regions of the earth. These tests included:
High-altitude trials in Denver, Colorado (USA), Lesotho (South Africa) and Granada (Spain)
Heat trials in Death Valley, California (USA), Upington (South Africa), Idiada test track (Spain) and Phoenix, Arizona (USA)
Road trials in Los Angeles, California (USA)
Cold trials in Arctic Falls (Sweden)
Various test runs on the high-speed circuits in Nardo (Italy) and Papenburg (Germany)
Tests in the DaimlerChrysler wind tunnel
In addition, various endurance trials were carried out with the aim of simulating the engine’s entire operating life under the most extreme conditions:
Nürburgring north loop: The engine was tested under predominantly full load conditions on the world’s most demanding racetrack.
Mixed road endurance trials: Testing under everyday conditions. The vehicles were loaded to their gross vehicle weight and subjected to a defined test program on country roads, motorways and in city traffic.
Stress endurance trials at the DaimlerChrysler test site in Papenburg: Extreme acceleration and deceleration cycles under predominantly full load conditions, with high stresses on the oil circuit, cooling system and fuel supply.
Endurance trials in the hills of the Swabian Alb region: The vehicles were loaded to their gross vehicle weight and towed a two-tonne trailer. The route covered country roads with numerous uphill and downhill gradients, and subjected the engine, transmission and cooling system to very high stresses.

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