Woodcutter
RMS Regular
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It's more than I could be bothered to read, but I thought I'd post it anyway. What amazes me is BMW have managed to get the new V8 lump to weigh 15kg less than the outgoing E46 M3 straight six, which is mighty impressive when you consider it has 800cc more and another 2 cylinders! It also has 200cc less than an RS4 yet develops more power, and revs to 8300rpm!
The headline figures.
First eight-cylinder for the BMW M3 sports car.
• Supreme performance ensured by 309 kW/420 hp from 4.0 litres.
• Maximum torque of 400 Newton-metres (295 lb-ft) at 3, 900 rpm, 85 per cent of maximum torque over a speed range of 6,500 rpm.
• Unique thrust and muscle ensured by consistent implementation of the M high-speed engine concept, maximum engine speed 8,300 rpm.
• Consistent lightweight construction of engine and ancillary units, new V8 power unit one of the lightest eight-cylinders in the world, lighter than the straight-six power unit in the former model.
• Variable camshaft control, low-pressure double-VANOS for an optimum charge cycle, system offering full power and performance even with normal engine oil pressure.
• Eight individual throttle butterflies for spontaneous engine response.
• Consistent and reliable oil supply with longitudinal and lateral acceleration up to 1.4 g ensured by two oil pumps and wet sump oil lubrication optimised for supreme dynamic behaviour.
• Exhaust system optimising cylinder charge, optimised for weight and function by means of internal high-pressure remoulding, exhaust emissions fulfil EU4 and LEV 2 standards.
• Upgraded MSS60 engine control unit for optimum coordination of all engine functions with the various control systems in the car.
• Ion flow technology recognising and distinguishing engine knocking phenomena as well as misfiring and miscombustion by measurement of ion flow in the combustion chambers.
• Brake Energy Regeneration with intelligent alternator control.
The Full Story and info
An exceptional power unit for an exceptional sports car: The V8 power unit featured in the new BMW M3 raises the driving pleasure offered by BMW M GmbH’s high-performance two-door sports car to a level never seen before. And so the combination of this power unit with such a unique car concept offers a supreme motoring thrill virtually unparalleled on the road.
V8 power units have always been acknowledged as fascinating machines making the heart of the genuine aficionado skip a beat – particularly if the power unit involved is a fast-revving naturally aspirated engine in an uncompromising sports car.
A similar thrill is provided in Formula 1, the highest and most challenging level of motorsport, where once again the eight-cylinder sets the standard and marks the latest development in technology. And the similarities between the BMW Sauber F1 Team’s power unit, on the one hand, and the power unit featured in the new BMW M3, on the other, are unmistakable.
To round off this perfect combination, the BMW M3 teaming up with the new V8 power unit provides the ultimate in thrilling performance on the road. Already a legend in the world of sports car motoring, the BMW M3 with V8 power now once again sets the standard in its class. Indeed, it is further increasing its leadership over the competition as the largest and most powerful engine ever seen in a regular production BMW M3.
The engine’s specifications alone clearly prove the enormous progress achieved in changing over from the straight-six power unit which has dominated the scene for more than 15 years to the new eight-cylinder: Engine capacity is 3,999 cc, maximum output 309 kW/420 hp. Peak torque of 400 Newton-metres or 295 lb-ft is just as impressive as maximum engine speed of 8,300 rpm.
So 20 years after the first BMW M3 established the then brand-new segment of high-performance sports cars, the fourth generation paves the way into an unprecedented dimension of driving pleasure.
After 15 years: goodbye to the six-cylinder, hello to the V8.
Following the rule that “there is always room for improvement”, even the engine of the “Car of the Century”, as the French motor magazine “Auto Plus” euphorically lauded the second-generation BMW M3 15 years ago, is now giving way for an even more outstanding, truly supreme successor. Especially because the ever-increasing power and muscle of the third generation of the BMW M3, for the first time offering more than 100 hp per litre, already made maximum use of the technical potential of the straight-six engine. And any further increase in engine power and performance would have had unwanted effects on the car’s driving dynamics, since various parts and components exposed in this way to even greater loads would have had to be even more stable and, consequently, heavier than before.
So in introducing the fourth generation of the BMW M3, BMW M is also making a change within the engine compartment, opening up the door to the brand-new V8.
Maximum output of 309 kW/420 hp also sets an appropriate distance to the top engine in the “regular” BMW 3 Series, the 3.0-litre straight-six with Twin Turbo technology and maximum output of 225 kW/306 hp. So the new BMW M3 proudly retains the unique character of a high-performance sports car from BMW M GmbH.
The ideal formula for the engine designer: 8 x 500 = 4,000.
Eight cylinders, four litres capacity. Specifications of this kind alone make the dream of the engine designer come true on the new power unit. Quite simply because combustion chambers displacing 500 cc per cylinder are acknowledged as ideal. A similarly powerful six-cylinder, therefore, would inevitably have deviated from this ideal geometry of a genuine sports engine. The V8, on the other hand, in its dimensions, filling quantities, the number of components and in its weight, represents the optimum concept in both theory and practice.
High-speed engine concept entering a new dimension.
The designers and engineers responsible for the new power unit have nevertheless remained faithful to the high-speed engine concept so typical of BMW M. Indeed, they have even raised this concept to an unprecedented level, the new V8 reaching maximum engine speed of 8,300 rpm, a figure so far seen only in motorsport engines and a handful of exotic, hand-built cars. To this day, hardly any engine designer or engineer responsible for a series production engine has dared to enter this terrain.
The high-speed engine concept is however a traditional forte of BMW M GmbH’s high-performance natural aspiration engines, generating enormous power and performance from high engine speeds. This avoids the conventional wisdom of simply increasing the size of the engine or using a turbocharger, often involving an undue increase in weight and fuel consumption.
Through the high-speed engine concept, the engine development specialists at BMW M GmbH thus ensure that the spontaneity of the engine, its instan-taneous response to the driver’s wishes, reflects the great demands made of an M Car and its overall concept. And so, in its performance potential, the development of power, in its dimensions and weight, the V8 power unit is a typical BMW M engine through and through.
Taking Formula 1 as a role model and paving the way through BMW M engineering.
A further significant point is that the eight-cylinder boasts all the features and qualities so typical of BMW M, such as double-VANOS, individual throttle butterflies, and high performance engine electronics. At the same time the number of cylinders, the high-speed engine concept and the low weight clearly indicate that the engineers responsible for the new eight-cylinder have been inspired by another eight-cylinder – the unique engine featured in the BMW Sauber F1, the engine currently raced by the Team in the highest realms of motorsport. And indeed, the two power units share a number of features not only in their basic technological principles, but also in their production methods and materials clearly borne out by the transfer of technology from motorsport to series production.
One difference, however, will always remain: The BMW M3 is required to offer outstanding performance not only on racing weekends and therefore features a high-performance power unit fully suited for everyday use and reliability on all roads, in all kinds of weather, and in years of tough motoring the world over.
Twenty per cent more power – a new dimension in driving dynamics.
A new BMW M3 must offer one feature in particular: even more power.
And this is precisely why the fourth generation of the BMW M3 gives its proud owner about 20 per cent more power than before, the engine churning out a substantial 309 kW/420 hp.
In its specific output, the eight-cylinder easily exceeds the benchmark of 100 hp per litre acknowledged as the standard for a particularly sporting and dynamic power unit. But even so, power is not everything. Instead, the dy-namic experience offered by a car is borne out in particular by its acceleration and performance in gear at all speeds resulting also from the weight of the vehicle and the sheer thrust and muscle of the engine.
The engine is an important factor in determining the weight of a car, that is
the mass to be accelerated – after all, it is one of the heaviest modules within the car to begin with. So precisely here, the new BMW M3 again sets a new standard with engine weight of just 202 kg or 445 lb, making this V8 one of the lightest eight-cylinder engines in the world.
By comparison, the 294 kW/400 hp V8 in the predecessor to the current BMW M5 weighed 240 kg or 529 lb. So despite the extra power, the new engine is more than 15 per cent lighter. Indeed, it is approximately 15 kg or 33 lb lighter than even the six-cylinder power unit in the former BMW M3. So the extra weight of the two additional cylinders is more than set of by intelligent lightweight technology on the new engine.
High-speed engine concept for superior power and torque in practice.
The second factor crucial to driving dynamics, the power and thrust actually conveyed to and by the drive wheels, results from engine torque and the overall transmission ratio. At 400 Newton-metres or 295 lb-ft at 3,900 rpm, maximum torque of the new eight-cylinder is approximately 10 cent higher than the peak torque of the former straight-six, and the engine develops an equally superior 340 Newton-metres or 251 lb-ft at just 2,000 rpm. No less than some 85 per cent of the maximum torque is indeed maintained consistently over a speed range of 6,500 rpm very broad indeed for a sports car engine.
This is clearly reflected by the performance characteristics of the new BMW M3 not only offering a supreme standard of dynamic power, but also all the qualities for cruising smoothly on winding country roads or in city traffic.
Last but certainly not least – and indeed quite crucial in terms of overall qualities – the high-speed engine concept with its M-specific features allows use of the optimum transmission and final drive ratios and thus guarantees a perfect rendition of muscle and performance on the road under practical driving conditions.
The effect provided in this way is borne out by a clear example: Whenever a cyclist shifts down on an uphill gradient, he has to turn the pedals faster, but in return he can ride up virtually any hill. Should he, on the other hand, remain in the same gear or even shift up, he will have to pedal harder or even get off his bicycle. And given the same power and muscle, the cyclist able to turn the pedals faster will always be the winner.
High speed, low weight.
The fact remains that more power alone – that is higher torque – is not sufficient to be a winner. And so the BMW M3 outperforms competitors focusing on the torque concept alone, wherever those models require a massively reinforced and, accordingly, heavy drivetrain to convey their extremely high level of torque, since this extra weight and mass must first be accelerated and propelled to a higher speed. The high engine speed concept, on the other hand, enables the engineer to opt for a much lighter drivetrain and choose a far shorter transmission ratio.
The other side of the coin is that the M high-speed engine concept is extremely demanding in technological terms: While the former straight-six was still limited electronically to maximum engine speed of 8,000 rpm, the new eight-cylinder exceeds this mark by far, revving all the way to 8,300 rpm. This is indeed the fastest-revving V8 power unit in the world built in numbers going beyond a small model series.
Given this kind of power and such unique technology, the engine of the new BMW M3 shifts the limits of technology in series engine production to a much higher level than before – quite simply because the higher the speed of an engine, the closer you come to the highest limit physically achievable. At a speed of 8,000 rpm, each of the eight pistons covers a distance of 20 metres or almost 66 feet per second – piston speed found until recently only in the exclusive world of motorsport. The conventional wisdom so far was indeed that this kind of speed and the loads exerted on the materials in the process were simply too much for series construction.
Targets in the design and construction process: compact, stiff, light.
In developing BMW’s new eight-cylinder power unit, the engineers and other specialists sought to reduce all moving masses to an absolute minimum, focusing above all on the crank and valve drive in their search to ensure minimum rotating and moving masses. Precisely this is why they decided to combine two rows of four cylinders at a V angle of 90° and an off-centre arrangement of 17 millimetres or 0.67´´ to make the entire power unit extremely compact and efficient.
The decision to choose a 90° angle was taken on account of the efficient compensation of mass forces provided by this geometry, serving to minimise vibrations and maximise motoring comfort. By and large, therefore, this specific geometry offers the optimum solution to the conflict of interests resulting from maximum smoothness free of vibrations, on the one hand, and maximum stiffness of all relevant components, on the other.
Engine block from BMW’s Formula 1 foundry.
The engine block featured on the new BMW M3 comes from BMW’s light-alloy foundry in Landshut near Munich, which also builds the engine block for BMW’s Formula 1 racing cars. The cylinder crankcase is made at the foundry in a low-pressure die-casting process from an over-eutectic aluminium-silicon alloy, with at least 17 per cent silicon. The cylinder liners, in turn, are formed by exposing the hard silicon crystals, the iron-coated pistons running directly in these uncoated honed cylinder bores and thus not requiring any additional lining. Cylinder stroke is 75.2 millimetres or 2.96´´, cylinder bore 92 millimetres or 3.62”, adding up to provide overall capacity of 3,999 cc.
Since high engine speeds, high compression forces and high temperatures exert extreme loads on the crankcase, the crankcase is very compact in its design and dimensions and built as a very stiff bedplate structure, a concept which has already proven its qualities in motorsport. Made of die-cast aluminium, the bedplate features grey-cast-iron inlays ensuring very precise support of the crankshaft. In particular, this structure keeps main bearing play throughout the entire range of operating temperatures within close limits, the grey-cast-iron inlays reducing thermal elongation of the aluminium housing. As a result, oil flow remains almost unchanged at all times. And to form a positive engagement with the aluminium frame, the inlays have open cut-outs integrating them directly in the frame.
With the distance between cylinders measuring only 98 millimetres or 3.86´´, the crankshaft made of forged, high-strength steel is relatively short, making it very stiff in terms of flexural and torsional strength and reducing the weight of the crankshaft to just 20 kg or 44 lb. Running in five bearings, the crank-shaft has a main bearing measuring 60 millimetres or 2.36´´ in diameter, with bearing width of 28.2 millimetres or 1.11´´. In each case two connecting rods act on one of the four crankpins offset from one another by 90°.
Lightweight construction specifically on all moving masses.
The weight-optimised box-type pistons are cast out of a high temperature-proof aluminium alloy and coated with iron. This reduces their weight to a mere 481.7 grams including the piston pins and rings. Compression height is 27.4 millimetres, with a compression ratio of 12.0 : 1.
The pistons are cooled by oil spray jets connected to the main oil pipe. Measuring 140.7 millimetres or 5.54´´ in length, the cracked trapezoidal connecting rods are made of a high-strength steel-magnesium alloy. Including the bearing shells, each connecting rod weighs just 623 grams, which significantly reduces the oscillating masses.
The single-piece aluminium cylinder heads feature four valves per cylinder in characteristic BMW style. The valves weighing 42 grams each are activated by ball-shaped cup tappets with hydraulic valve play compensation. Tappet diameter is only 28 millimetres or 1.10´´, while the intake and exhaust valves measure 35 and respectively 30.5 millimetres (1.38 and 1.20´´) in diameter. Measuring only 5 millimetres or 0.20´´ across, the valve shaft has hardly any influence on flow conditions in the intake manifold, while the hydraulic valve play compensation rules out any change in valve play, ensuring lasting reliability and at the same time reducing the cost of maintenance.
The engine always keeps a cool – cylinder – head.
Compared with conventional systems, the cross-flow cooling concept featured on the new V8 power unit significantly reduces pressure losses in the cooling process, spreading out temperatures smoothly and consistently throughout the cylinder head and thus reducing temperature peaks at all critical points. To ensure a perfect flow of cooling around each cylinder, the coolant flows from the crankcase via the exhaust side crosswise through the cylinder head and the collector rail on the intake side to the thermostat and, respectively, to the radiator.
Double-VANOS – but with low instead of high pressure.
Focusing on the engine concept, the engineers at BMW M sought from the start to increase engine output through an optimum charge cycle at high engine speeds. Quite simply, this is because reduced charged cycle losses offer not only more power, but also an improved torque curve and optimum engine response as well as a further reduction of fuel consumption and lower emissions. And precisely these are the benefits offered by variable double-VANOS camshaft control introduced in the BMW M3 for the first time worldwide back in 1995.
With its extremely short adjustment times, double-VANOS now also perfects the cylinder charge cycle in the eight-cylinder power unit of the new BMW M3. Under low loads and at low engine speeds, for example, double-VANOS ensures a higher valve overlap and, as a result, better internal recirculation of exhaust gasses. This, in turn, reduces charge cycle losses and helps to minimise fuel consumption.
The headline figures.
First eight-cylinder for the BMW M3 sports car.
• Supreme performance ensured by 309 kW/420 hp from 4.0 litres.
• Maximum torque of 400 Newton-metres (295 lb-ft) at 3, 900 rpm, 85 per cent of maximum torque over a speed range of 6,500 rpm.
• Unique thrust and muscle ensured by consistent implementation of the M high-speed engine concept, maximum engine speed 8,300 rpm.
• Consistent lightweight construction of engine and ancillary units, new V8 power unit one of the lightest eight-cylinders in the world, lighter than the straight-six power unit in the former model.
• Variable camshaft control, low-pressure double-VANOS for an optimum charge cycle, system offering full power and performance even with normal engine oil pressure.
• Eight individual throttle butterflies for spontaneous engine response.
• Consistent and reliable oil supply with longitudinal and lateral acceleration up to 1.4 g ensured by two oil pumps and wet sump oil lubrication optimised for supreme dynamic behaviour.
• Exhaust system optimising cylinder charge, optimised for weight and function by means of internal high-pressure remoulding, exhaust emissions fulfil EU4 and LEV 2 standards.
• Upgraded MSS60 engine control unit for optimum coordination of all engine functions with the various control systems in the car.
• Ion flow technology recognising and distinguishing engine knocking phenomena as well as misfiring and miscombustion by measurement of ion flow in the combustion chambers.
• Brake Energy Regeneration with intelligent alternator control.
The Full Story and info
An exceptional power unit for an exceptional sports car: The V8 power unit featured in the new BMW M3 raises the driving pleasure offered by BMW M GmbH’s high-performance two-door sports car to a level never seen before. And so the combination of this power unit with such a unique car concept offers a supreme motoring thrill virtually unparalleled on the road.
V8 power units have always been acknowledged as fascinating machines making the heart of the genuine aficionado skip a beat – particularly if the power unit involved is a fast-revving naturally aspirated engine in an uncompromising sports car.
A similar thrill is provided in Formula 1, the highest and most challenging level of motorsport, where once again the eight-cylinder sets the standard and marks the latest development in technology. And the similarities between the BMW Sauber F1 Team’s power unit, on the one hand, and the power unit featured in the new BMW M3, on the other, are unmistakable.
To round off this perfect combination, the BMW M3 teaming up with the new V8 power unit provides the ultimate in thrilling performance on the road. Already a legend in the world of sports car motoring, the BMW M3 with V8 power now once again sets the standard in its class. Indeed, it is further increasing its leadership over the competition as the largest and most powerful engine ever seen in a regular production BMW M3.
The engine’s specifications alone clearly prove the enormous progress achieved in changing over from the straight-six power unit which has dominated the scene for more than 15 years to the new eight-cylinder: Engine capacity is 3,999 cc, maximum output 309 kW/420 hp. Peak torque of 400 Newton-metres or 295 lb-ft is just as impressive as maximum engine speed of 8,300 rpm.
So 20 years after the first BMW M3 established the then brand-new segment of high-performance sports cars, the fourth generation paves the way into an unprecedented dimension of driving pleasure.
After 15 years: goodbye to the six-cylinder, hello to the V8.
Following the rule that “there is always room for improvement”, even the engine of the “Car of the Century”, as the French motor magazine “Auto Plus” euphorically lauded the second-generation BMW M3 15 years ago, is now giving way for an even more outstanding, truly supreme successor. Especially because the ever-increasing power and muscle of the third generation of the BMW M3, for the first time offering more than 100 hp per litre, already made maximum use of the technical potential of the straight-six engine. And any further increase in engine power and performance would have had unwanted effects on the car’s driving dynamics, since various parts and components exposed in this way to even greater loads would have had to be even more stable and, consequently, heavier than before.
So in introducing the fourth generation of the BMW M3, BMW M is also making a change within the engine compartment, opening up the door to the brand-new V8.
Maximum output of 309 kW/420 hp also sets an appropriate distance to the top engine in the “regular” BMW 3 Series, the 3.0-litre straight-six with Twin Turbo technology and maximum output of 225 kW/306 hp. So the new BMW M3 proudly retains the unique character of a high-performance sports car from BMW M GmbH.
The ideal formula for the engine designer: 8 x 500 = 4,000.
Eight cylinders, four litres capacity. Specifications of this kind alone make the dream of the engine designer come true on the new power unit. Quite simply because combustion chambers displacing 500 cc per cylinder are acknowledged as ideal. A similarly powerful six-cylinder, therefore, would inevitably have deviated from this ideal geometry of a genuine sports engine. The V8, on the other hand, in its dimensions, filling quantities, the number of components and in its weight, represents the optimum concept in both theory and practice.
High-speed engine concept entering a new dimension.
The designers and engineers responsible for the new power unit have nevertheless remained faithful to the high-speed engine concept so typical of BMW M. Indeed, they have even raised this concept to an unprecedented level, the new V8 reaching maximum engine speed of 8,300 rpm, a figure so far seen only in motorsport engines and a handful of exotic, hand-built cars. To this day, hardly any engine designer or engineer responsible for a series production engine has dared to enter this terrain.
The high-speed engine concept is however a traditional forte of BMW M GmbH’s high-performance natural aspiration engines, generating enormous power and performance from high engine speeds. This avoids the conventional wisdom of simply increasing the size of the engine or using a turbocharger, often involving an undue increase in weight and fuel consumption.
Through the high-speed engine concept, the engine development specialists at BMW M GmbH thus ensure that the spontaneity of the engine, its instan-taneous response to the driver’s wishes, reflects the great demands made of an M Car and its overall concept. And so, in its performance potential, the development of power, in its dimensions and weight, the V8 power unit is a typical BMW M engine through and through.
Taking Formula 1 as a role model and paving the way through BMW M engineering.
A further significant point is that the eight-cylinder boasts all the features and qualities so typical of BMW M, such as double-VANOS, individual throttle butterflies, and high performance engine electronics. At the same time the number of cylinders, the high-speed engine concept and the low weight clearly indicate that the engineers responsible for the new eight-cylinder have been inspired by another eight-cylinder – the unique engine featured in the BMW Sauber F1, the engine currently raced by the Team in the highest realms of motorsport. And indeed, the two power units share a number of features not only in their basic technological principles, but also in their production methods and materials clearly borne out by the transfer of technology from motorsport to series production.
One difference, however, will always remain: The BMW M3 is required to offer outstanding performance not only on racing weekends and therefore features a high-performance power unit fully suited for everyday use and reliability on all roads, in all kinds of weather, and in years of tough motoring the world over.
Twenty per cent more power – a new dimension in driving dynamics.
A new BMW M3 must offer one feature in particular: even more power.
And this is precisely why the fourth generation of the BMW M3 gives its proud owner about 20 per cent more power than before, the engine churning out a substantial 309 kW/420 hp.
In its specific output, the eight-cylinder easily exceeds the benchmark of 100 hp per litre acknowledged as the standard for a particularly sporting and dynamic power unit. But even so, power is not everything. Instead, the dy-namic experience offered by a car is borne out in particular by its acceleration and performance in gear at all speeds resulting also from the weight of the vehicle and the sheer thrust and muscle of the engine.
The engine is an important factor in determining the weight of a car, that is
the mass to be accelerated – after all, it is one of the heaviest modules within the car to begin with. So precisely here, the new BMW M3 again sets a new standard with engine weight of just 202 kg or 445 lb, making this V8 one of the lightest eight-cylinder engines in the world.
By comparison, the 294 kW/400 hp V8 in the predecessor to the current BMW M5 weighed 240 kg or 529 lb. So despite the extra power, the new engine is more than 15 per cent lighter. Indeed, it is approximately 15 kg or 33 lb lighter than even the six-cylinder power unit in the former BMW M3. So the extra weight of the two additional cylinders is more than set of by intelligent lightweight technology on the new engine.
High-speed engine concept for superior power and torque in practice.
The second factor crucial to driving dynamics, the power and thrust actually conveyed to and by the drive wheels, results from engine torque and the overall transmission ratio. At 400 Newton-metres or 295 lb-ft at 3,900 rpm, maximum torque of the new eight-cylinder is approximately 10 cent higher than the peak torque of the former straight-six, and the engine develops an equally superior 340 Newton-metres or 251 lb-ft at just 2,000 rpm. No less than some 85 per cent of the maximum torque is indeed maintained consistently over a speed range of 6,500 rpm very broad indeed for a sports car engine.
This is clearly reflected by the performance characteristics of the new BMW M3 not only offering a supreme standard of dynamic power, but also all the qualities for cruising smoothly on winding country roads or in city traffic.
Last but certainly not least – and indeed quite crucial in terms of overall qualities – the high-speed engine concept with its M-specific features allows use of the optimum transmission and final drive ratios and thus guarantees a perfect rendition of muscle and performance on the road under practical driving conditions.
The effect provided in this way is borne out by a clear example: Whenever a cyclist shifts down on an uphill gradient, he has to turn the pedals faster, but in return he can ride up virtually any hill. Should he, on the other hand, remain in the same gear or even shift up, he will have to pedal harder or even get off his bicycle. And given the same power and muscle, the cyclist able to turn the pedals faster will always be the winner.
High speed, low weight.
The fact remains that more power alone – that is higher torque – is not sufficient to be a winner. And so the BMW M3 outperforms competitors focusing on the torque concept alone, wherever those models require a massively reinforced and, accordingly, heavy drivetrain to convey their extremely high level of torque, since this extra weight and mass must first be accelerated and propelled to a higher speed. The high engine speed concept, on the other hand, enables the engineer to opt for a much lighter drivetrain and choose a far shorter transmission ratio.
The other side of the coin is that the M high-speed engine concept is extremely demanding in technological terms: While the former straight-six was still limited electronically to maximum engine speed of 8,000 rpm, the new eight-cylinder exceeds this mark by far, revving all the way to 8,300 rpm. This is indeed the fastest-revving V8 power unit in the world built in numbers going beyond a small model series.
Given this kind of power and such unique technology, the engine of the new BMW M3 shifts the limits of technology in series engine production to a much higher level than before – quite simply because the higher the speed of an engine, the closer you come to the highest limit physically achievable. At a speed of 8,000 rpm, each of the eight pistons covers a distance of 20 metres or almost 66 feet per second – piston speed found until recently only in the exclusive world of motorsport. The conventional wisdom so far was indeed that this kind of speed and the loads exerted on the materials in the process were simply too much for series construction.
Targets in the design and construction process: compact, stiff, light.
In developing BMW’s new eight-cylinder power unit, the engineers and other specialists sought to reduce all moving masses to an absolute minimum, focusing above all on the crank and valve drive in their search to ensure minimum rotating and moving masses. Precisely this is why they decided to combine two rows of four cylinders at a V angle of 90° and an off-centre arrangement of 17 millimetres or 0.67´´ to make the entire power unit extremely compact and efficient.
The decision to choose a 90° angle was taken on account of the efficient compensation of mass forces provided by this geometry, serving to minimise vibrations and maximise motoring comfort. By and large, therefore, this specific geometry offers the optimum solution to the conflict of interests resulting from maximum smoothness free of vibrations, on the one hand, and maximum stiffness of all relevant components, on the other.
Engine block from BMW’s Formula 1 foundry.
The engine block featured on the new BMW M3 comes from BMW’s light-alloy foundry in Landshut near Munich, which also builds the engine block for BMW’s Formula 1 racing cars. The cylinder crankcase is made at the foundry in a low-pressure die-casting process from an over-eutectic aluminium-silicon alloy, with at least 17 per cent silicon. The cylinder liners, in turn, are formed by exposing the hard silicon crystals, the iron-coated pistons running directly in these uncoated honed cylinder bores and thus not requiring any additional lining. Cylinder stroke is 75.2 millimetres or 2.96´´, cylinder bore 92 millimetres or 3.62”, adding up to provide overall capacity of 3,999 cc.
Since high engine speeds, high compression forces and high temperatures exert extreme loads on the crankcase, the crankcase is very compact in its design and dimensions and built as a very stiff bedplate structure, a concept which has already proven its qualities in motorsport. Made of die-cast aluminium, the bedplate features grey-cast-iron inlays ensuring very precise support of the crankshaft. In particular, this structure keeps main bearing play throughout the entire range of operating temperatures within close limits, the grey-cast-iron inlays reducing thermal elongation of the aluminium housing. As a result, oil flow remains almost unchanged at all times. And to form a positive engagement with the aluminium frame, the inlays have open cut-outs integrating them directly in the frame.
With the distance between cylinders measuring only 98 millimetres or 3.86´´, the crankshaft made of forged, high-strength steel is relatively short, making it very stiff in terms of flexural and torsional strength and reducing the weight of the crankshaft to just 20 kg or 44 lb. Running in five bearings, the crank-shaft has a main bearing measuring 60 millimetres or 2.36´´ in diameter, with bearing width of 28.2 millimetres or 1.11´´. In each case two connecting rods act on one of the four crankpins offset from one another by 90°.
Lightweight construction specifically on all moving masses.
The weight-optimised box-type pistons are cast out of a high temperature-proof aluminium alloy and coated with iron. This reduces their weight to a mere 481.7 grams including the piston pins and rings. Compression height is 27.4 millimetres, with a compression ratio of 12.0 : 1.
The pistons are cooled by oil spray jets connected to the main oil pipe. Measuring 140.7 millimetres or 5.54´´ in length, the cracked trapezoidal connecting rods are made of a high-strength steel-magnesium alloy. Including the bearing shells, each connecting rod weighs just 623 grams, which significantly reduces the oscillating masses.
The single-piece aluminium cylinder heads feature four valves per cylinder in characteristic BMW style. The valves weighing 42 grams each are activated by ball-shaped cup tappets with hydraulic valve play compensation. Tappet diameter is only 28 millimetres or 1.10´´, while the intake and exhaust valves measure 35 and respectively 30.5 millimetres (1.38 and 1.20´´) in diameter. Measuring only 5 millimetres or 0.20´´ across, the valve shaft has hardly any influence on flow conditions in the intake manifold, while the hydraulic valve play compensation rules out any change in valve play, ensuring lasting reliability and at the same time reducing the cost of maintenance.
The engine always keeps a cool – cylinder – head.
Compared with conventional systems, the cross-flow cooling concept featured on the new V8 power unit significantly reduces pressure losses in the cooling process, spreading out temperatures smoothly and consistently throughout the cylinder head and thus reducing temperature peaks at all critical points. To ensure a perfect flow of cooling around each cylinder, the coolant flows from the crankcase via the exhaust side crosswise through the cylinder head and the collector rail on the intake side to the thermostat and, respectively, to the radiator.
Double-VANOS – but with low instead of high pressure.
Focusing on the engine concept, the engineers at BMW M sought from the start to increase engine output through an optimum charge cycle at high engine speeds. Quite simply, this is because reduced charged cycle losses offer not only more power, but also an improved torque curve and optimum engine response as well as a further reduction of fuel consumption and lower emissions. And precisely these are the benefits offered by variable double-VANOS camshaft control introduced in the BMW M3 for the first time worldwide back in 1995.
With its extremely short adjustment times, double-VANOS now also perfects the cylinder charge cycle in the eight-cylinder power unit of the new BMW M3. Under low loads and at low engine speeds, for example, double-VANOS ensures a higher valve overlap and, as a result, better internal recirculation of exhaust gasses. This, in turn, reduces charge cycle losses and helps to minimise fuel consumption.