BMW M4 Coupe
The launch of the new BMW M3 Sedan and new BMW M4 Coupe sees BMW M GmbH
revealing a new interpretation of the high-performance sports car - and
carrying the BMW M philosophy over into the fifth generation of the M3. More
than 40,000 examples of the fourth-generation BMW M3 Coupe were built, and now
the BMW M4 Coupe is poised to continue this success story. The "M4"
badge is a reference to the model series that provides the basis for the new M
model - and, for the first time, the Coupe will be introduced at the same time
as the four-door variant. Logic dictates the latter will be christened the BMW
M3 Sedan.
"Four generations of the BMW M3 have blended motor sport genes and
uncompromised everyday usability within an emotionally rich overall
concept," explains Dr Friedrich Nitschke, President BMW M GmbH. "The
BMW M3 Sedan and BMW M4 Coupe represent an ongoing commitment to this
philosophy. The engine is the heart of every M model, and the new turbocharged
sixcylinder unit fitted in the two new cars combines the virtues of a
high-revving naturally aspirated unit with the strengths of turbocharger
technology. A committed lightweight design concept produces a weight saving of
around 80 kilograms over the outgoing M3. The BMW M3 and BMW M4 take motor
sport technology from the track to the road, and thousands of laps of the
legendary Nürburgring Nordschleife - the world's most exacting race track -
have readied the new models for that transition. Meticulous and passionfuelled
development work has underpinned the creation of two highperformance sports
cars that set new standards in terms of overall concept, precision and
agility."
The high-revving six-cylinder in-line engine with M TwinPower Turbo
technology newly developed for the new BMW M3 Sedan and new BMW M4 Coupe
produces a maximum output of 431 hp. Its peak torque of 550 Newton metres (406
lb-ft) is available across a wide rev band and outstrips the figure recorded by
the outgoing BMW M3 by roughly 40 per cent. And yet the engine also achieves a
reduction in fuel consumption and emissions of around 25 per cent. Both the BMW
M3 Sedan and BMW M4 Coupe cover the sprint from 0 to 100 km/h / 62 mph in 4.1
seconds (with the optional seven-speed M Double Clutch Transmission).
In the interests of maximising dynamic ability and ensuring excellent
efficiency, weight savings of around 80 kilograms have been achieved over a
comparably equipped predecessor model. The BMW M4 Coupe, for example, has a DIN
kerb weight of 1,497 kilograms, thanks to the rigorous application of intelligent
lightweight design measures. These include the increased use of lightweight
materials such as carbon-fibre-reinforced plastic (CFRP) and aluminium for a
number of chassis and body components. Indeed, both models feature a carbon
roof.
One of the primary objectives in the development of the BMW M3 Sedan and
BMW M4 Coupe was to ensure the new cars offered impressive race track
capability. Hence the presence of a track-specification cooling system, which
ensures that the optimum temperature balance for the engine, turbochargers and
transmission is maintained at all times.
In order to accentuate the racing character of the two models in terms of
both their technical composition and the fine-tuning of the cars, the engineers
worked closely with BMW Motorsport's professional racing drivers during the
development phase. For example, DTM drivers Bruno Spengler and Timo Glock took
part in the extensive testing and set-up work carried out at the
Nürburgring-Nordschleife circuit.
A blend of elements working in perfect harmony delivers outstanding performance, precision and agility
Low-slung and broad-set, the new BMW M3 Sedan and new BMW M4 Coupe share a
finely balanced stance on the road. Indeed, the M-specific design of the two
high-performance sports cars underlines their performance capability. Large air
intakes and Air Curtains at the front end, exposed carbon-fibrereinforced
plastic (CFRP) and aluminium body components, and the diffuser at the muscular
rear end are not merely design flourishes; they also fulfil functional roles in
terms of aerodynamics, cooling and weight saving.
Numerous aerodynamics measures integrated into all areas of the body.
The aerodynamics concept of BMW M GmbH models has always been one of the
key elements in their development. The engineers need to channel the air around
the car to create the best possible platform for dynamic excellence, while also
ensuring the engine, powertrain and brakes receive the requisite cooling even
when operating under heavy loads on the race track.
Details such as the powerfully formed front apron, smooth underbody and
clearly defined Gurney spoiler at the rear of the M3 Sedan (or integrated
spoiler lip at the rear of the BMW M4 Coupe) reduce lift by an equal degree at
the front and rear axle and produce optimum handling attributes. "The way
in which we channel the inflowing air through the engine oil cooler creates a
Venturi effect, which reduces front axle lift and, in so doing, improves the
steering," explains Albert Biermann, Head of Development BMW M GmbH.
Elements like the Air Curtain and M gills with integrated Air Breather
rearwards of the front wheels minimise turbulence in the front wheel arches.
Together with the aerodynamically optimised exterior mirrors in twin-stalk
style, they are also highly distinctive design features of the BMW M3 Sedan and
BMW M4 Coupe and help reduce drag. These examples underline in familiar fashion
the success of M engineers in reconciling the requirements of everyday use with
the demands of action on the race track.
Sophisticated cooling concept for maximum performance.
The exceptional performance potential of the BMW M3 Sedan and BMW M4 Coupe
places extremely exacting demands on temperature management in the engine and
peripheral assemblies. In order to ensure optimum operating temperatures in
everyday use, on short journeys around town and out on the race track, the BMW
M GmbH engineers have developed an extremely effective cooling system. For
example, alongside the two ultradynamic turbocharger units, the air intake
system of the six-cylinder engine also includes an indirect intercooler,
maximising charge pressure and engine output. As well as a main radiator, the
track-ready cooling concept also comprises a water cooler repositioned to the
side for the high- and lowtemperature water circuits, and the engine and
transmission oil (if the M Double Clutch Transmission is specified). These
ensure a consistent temperature balance and therefore high performance on the
track as well as the road. An additional electric coolant pump cools the
turbocharger bearing mounts when the car is stationary.
Six-speed manual gearbox with throttle blipping.
The engine's power is transferred to the road via a standard six-speed
manual gearbox with robust double-plate clutch. This unit is considerably more
compact than its predecessor and 12 kilograms lighter. As a means of increasing
shift comfort, the manual gearbox uses innovative new carbon friction linings
in its synchroniser rings. Dry sump lubrication provides an efficient supply of
oil to all parts of the engine. The gearbox blips the throttle on downshifts -
previously a feature reserved for the M Double Clutch Transmission. This engagement
speed control function improves the smoothness of the transmission, helps to
enhance stability and was originally developed by motor sport engineers.
Seven-speed M Double Clutch Transmission Drivelogic with Launch Control.
The third generation of the M DCT sees the M engineers once again setting
the benchmark in terms of power and race track capability without having to
compromise on everyday usability. The optional seven-speed M Double Clutch
Transmission with Drivelogic prompts the new high-revving turbocharged engine
into emotionally impressive feats. As well as changing gear automatically, in
manual mode the transmission enables ultra-fast gear changes with no
interruption in the flow of power. The integrated Launch Control function ensures
optimum sprinting performance off the line, producing acceleration figures that
would be out of range with the manual gearbox. The Smokey Burnout function
allows the driver to indulge in a degree of rear wheel spin while the car is
moving at low speeds. Stability Clutch Control opens the clutch when the car is
understeering to bring it back into line. And M DCT also includes functions
like the Drivelogic modes that can be selected by the driver to give the BMW M3
and BMW M4 more comfortable, more economy-focused or even sportier
characteristics. The additional seventh gear over the manual gearbox allows
longer gear ratios - and delivers the efficiency gains you would expect as a
result.
The properties of the extremely light yet impressively durable material
CFRP have allowed the engineers to follow a fundamentally new approach in the
manufacture of the drive shaft. Made from CFRP, this component feeds the
engine's torque from the gearbox to the rear differential and works under
extremely heavy loads - especially in high-performance vehicles. "The
impressive stiffness and low weight of the CFRP tubing allow the drive shaft to
be constructed as a single-piece unit with no centre bearing. As well as a
weight saving of 40 per cent over its predecessor, we have achieved a reduction
in rotating masses and therefore improved drivetrain dynamics," explains
Albert Biermann.
Even more accomplished rear-wheel drive with Active M Differential.
Among the other components that add fresh polish to the dynamic repertoire
of the BMW M3 Sedan and BMW M4 Coupe are the hollow lightweight output shafts
of the rear differential and the Active M Differential, which uses an
electronically controlled multi-plate limited-slip differential to optimise
traction and directional stability. The multi-plate limited-slip differential
works with extremely high precision and speed. Its control unit links up with
the DSC (Dynamic Stability Control) system and also takes into account the
position of the accelerator pedal, the rotational speed of the wheels and the
car's yaw rate. Every driving situation is therefore precisely analysed and an
impending loss of traction on one side of the car identified at an early stage.
The degree of lock - which may be anywhere between 0 and 100 per cent - is
adjusted as required within a fraction of a second, enabling wheel spin to be
prevented on slippery surfaces, in instances where the right and left rear
wheel have widely differing friction coefficients, in tight bends and when
changing direction with particular vigour. Optimising traction in this way also
provides unbeatable driving stability in challenging conditions and allows
impressively dynamic acceleration out of corners.
M Dynamic Mode - a subfunction of the Dynamic Stability Control (DSC)
system - quenches the thirst of enthusiastic drivers for keen dynamics. While
DSC intervenes as required to counteract understeer and oversteer, M Dynamic
Mode allows greater wheel slip and therefore easy drifting. Owners with a taste
for sporty and dynamic driving will appreciate this breadth to the cars'
handling, although DSC will still step in if the car ventures over the limits -
unless it is switched off completely. Whichever setting the driver chooses, he
or she remains responsible for the car's stability.
Aluminium suspension elements ensure sharper dynamics.
The core expertise of BMW M GmbH resides in developing M cars that offer
impressive steering precision, on-the-limit adjustability, agility and driving
feeling, together with unbeatable traction and outstanding directional
stability - all without neglecting everyday usability. In order to achieve
these aims with the significantly increased performance capability of the new
BMW M3 Sedan and new BMW M4 Coupe, the axles of the outgoing BMW M3 have been
redesigned with painstaking attention to detail.
Here again, low weight and a high level of rigidity for the axle systems
are essential ingredients in ensuring the cars provide an ultra-dynamic driving
experience. In the double-joint spring strut front axle alone, the use of a
lightweight aluminium construction for components such as control arms, wheel
carriers and axle subframes saves five kilograms over a conventional steel
design. Play-free ball joints and elastomer bearings developed specially for the
BMW M3 Sedan and BMW M4 Coupe ensure an optimum and direct transfer of forces
both laterally and longitudinally. An aluminium stiffening plate, CFRP front
strut brace and additional bolted joints between the axle subframe and the body
structure all help to increase the rigidity of the front end.
Also lighter than the construction in the outgoing BMW M3 is the new
five-link rear axle. All the control arms and wheel carriers are manufactured
using forged aluminium, which reduces the unsprung masses of the wheel-locating
components by around three kilograms compared with the previous model
generation. The rigid connection between the rear axle subframe and the body -
without the use of elastic rubber elements - is borrowed from motor sport and
serves to further improve wheel location and therefore directional stability.
"The double-elastic mounting for the rear differential within the rear
axle subframe - which is bolted to the body structure - has allowed us to
achieve a new level of driving precision, but without neglecting comfort,"
says Albert Biermann, citing another example of the perfect symbiosis of
pure-bred motor sport technology and excellent everyday usability.
The development of the tyres for the cars was incorporated into the
construction process for the axles from the outset. For high-performance sports
cars like the BMW M3 Sedan and BMW M4 Coupe, in particular, steering feel and
precision are the foremost considerations in the development of tyres for the
front axle, alongside lateral stability and braking forces. At the rear axle,
meanwhile, traction, lateral stability and directional stability take centre
stage. For this reason, both cars will leave the factory on low-weight 18-inch
forged wheels (front axle: 9 J x 18, rear axle: 10 J x 18) with mixed-size
tyres (front axle: 255 mm, rear axle: 275 mm). 19-inch tyres are available as
an option. The specially developed forged wheels make a significant
contribution to the reduction in the cars' unsprung masses and, in turn, to the
optimisation of dynamic qualities and efficiency. The experienced M engineers
have taken great care to ensure all the components between the steering wheel
and tyres work together harmoniously and therefore provide maximum driving
precision and lateral stability, along with good ride comfort.
Electric Power Steering with three settings.
The electromechanical steering system in the new BMW M3 Sedan and new BMW
M4 Coupe represents a new development from BMW M GmbH and the critical
component in the link between driver and car. It offers the gifts of direct
steering feeling and precise feedback. The integrated Servotronic function
electronically adjusts the level of steering assistance according to the car's
speed, providing optimum steering characteristics at all speeds. The steering
for the BMW M3 Sedan and BMW M4 Coupe also offers the driver three settings as
standard, which can be selected at the touch of a button. COMFORT, SPORT and
SPORT+ modes allow the level of steering assistance to be adapted to suit the
situation at hand and the driver's personal tastes.
"Together, the rigid front and rear structures, precise axle
kinematics and an impressively responsive electromechanical power steering
system help to deliver the outstanding steering and handling characteristics of
the BMW M3 Sedan and BMW M4 Coupe," sums up Biermann.
The optional Adaptive M suspension likewise comes with COMFORT, SPORT and
SPORT+ modes, enabling the driver to choose between a more comfortable damper
setting for urban driving, for example, a stiffer set-up for dynamic driving on
country roads, and a third option that minimises body movements and maximises
dynamic performance for use on the track.
With their supreme dynamic attributes in mind, the BMW M3 Sedan and BMW M4
Coupe also come as standard with BMW M compound brakes boasting impressive
feel, outstanding stopping power and high resistance to fade. Far lighter than
conventional equivalents, these brakes contribute to a substantial reduction in
unsprung masses and therefore help to enhance dynamic performance. Even lighter
BMW M carbon ceramic brakes can also be specified as an option, their further
optimised performance attributes equipping them even more effectively for track
use and giving them even greater durability.
The new six-cylinder in-line engine: High-revving, turbocharged unit combines the best of both worlds
The new BMW M3 Sedan and new BMW M4 Coupe from BMW M GmbH see a return to a
six-in-line engine configuration, as used on the second and third generations
of this iconic sports car. "When developing a new model we first think
about what requirements the vehicle will be expected to meet, then decide which
concepts and technologies will best meet these goals," says Albert
Biermann. The new turbocharged engine combines the best of both worlds -
reaching a maximum 7,600 rpm, it is unusually high-revving for a turbocharged
engine, resulting in linear power delivery over a wide engine speed range and a
characterful engine note, while M TwinPower Turbo technology ensures that peak
torque is on top over a broad rpm range. A further hallmark of this engine is
its outstanding efficiency.
The new engine sees a slight power upgrade over the previous V8 to 431 hp,
which is delivered between 5,390 and 7,000 rpm. Peak torque has been increased
by roughly 40 per cent to 550 Newton metres, and is maintained over a very wide
rev band (1,800-5,390 rpm). The standard sprint from zero to 100 km/h (62 mph)
takes the new BMW M3 Sedan and new BMW M4 Coupe 4.1 seconds respectively. Top
speed is 250 km/h / 155 mph (electronically limited), or 280 km/h / 174 mph if
the optional M Driver's Package is specified. The new powerplant also boasts
excellent fuel economy: the BMW M3 Sedan and BMW M4 Coupe achieve consumption
in the EU cycle of 8.3 l/100 km (34 mpg) and CO2 emissions of 194 g/km, an improvement
of more than 25 per cent over the previous model's figures. Regulated pollutant
emissions are EU6-compliant.
Instantaneous response, courtesy of M TwinPower Turbo technology.
The M TwinPower Turbo technology comprises two fast-responding monoscroll
turbochargers, High Precision Direct Petrol Injection, VALVETRONIC variable
valve timing and Double-VANOS continuously variable camshaft timing.
VALVETRONIC and Double-VANOS work in tandem to seamlessly control intake valve
lift. The result is smooth and efficient power delivery, very sharp response
and reduced fuel consumption and emissions.
The six-cylinder engine features a closed-deck crankcase design which is
very rigid and allows cylinder pressures to be increased for improved power
output. And instead of liners, the cylinder bores feature a twin-wire
arcsprayed coating, which results in a significant reduction in engine weight.
A further technical highlight is the forged, torsionally rigid crankshaft
which, as well as providing increased torque-carrying capacity, is also lighter
in weight. This significantly reduces rotating masses, resulting in improved
throttle response and acceleration.
Track-ready engine oil supply system for outstanding performance.
On the track, the exceptional driving dynamics of the BMW M3 Sedan and BMW
M4 Coupe place extra demands on the engine oil supply system, whose design
reflects the extensive motor sport experience of BMW M GmbH. The low-weight
magnesium oil sump, for example, features a special cover to limit movement of
the oil under the effects of strong dynamic lateral acceleration. Under extreme
longitudinal acceleration and deceleration, an oil extraction pump and a
sophisticated oil return system situated close to the turbocharger likewise
help to maintain stable oil circulation. Oil is therefore supplied continuously
to all engine components in all driving situations - whether in everyday
motoring or during hard driving on the track.
An engine sound in keeping with the motor sport attributes of the BMW M3
and BMW M4 is provided by an innovative flap arrangement in the twin-pipe
exhaust system. The electrically controlled flaps just before the rear silencer
minimise exhaust back-pressure and produce a BMW M sound which is striking and
unmistakable over the entire engine speed range, as well as giving precise
feedback on engine load. The different selectable drive modes, which offer
drivers a choice of preconfigured, perfectly balanced vehicle set-ups, also
feature different engine sound profiles.
Lightweight design across the board: Shedding weight in all the right places
Intelligent lightweight design was a top priority in the development of the
BMW M3 and BMW M4. The goal was to minimise kerb weight in order to give both
models outstanding driving dynamics and exemplary efficiency. These measures
have delivered impressive results, giving the BMW M4 Coupe a kerb weight of
1,497 kilograms, around 80 kilograms lighter than a comparably equipped
predecessor model - with benefits for driving dynamics and fuel consumption as
well.
BMW M3 Sedan also gets CFRP roof for the first time.
On the outgoing models, the CFRP roof was confined to the Coupe version.
Now, for the first time, the four-door BMW M3 will get this striking design and
functional feature as well. The CFRP roof brings weight savings of five
kilograms in the case of the BMW M3 Sedan and more than six kilograms in the
case of the BMW M4 Coupe. It also lowers the vehicle's centre of gravity, which
has a positive impact on driving dynamics.
Made from aluminium rather than conventional steel, the front side walls
and the bonnet (with power dome) make an important contribution to the models'
lightweight design concept, while at the same time improving axle load
distribution.
On the BMW M4 Coupe, the contoured roofline with central channel continues
into the boot lid, emphasising the even sportier personality of the new model.
The newly developed boot lid not only provides extremely effective tail end
styling, its geometry is at the same time precisely tailored for optimised
aerodynamics, while the use of carbon fibre and plastics makes for additional
weight savings.
The new BMW M3 Sedan and new BMW M4 Coupe also feature a CFRP propeller
shaft. The high rigidity and low weight of the CFRP tube mean that the
propeller shaft can be produced as a single-piece component, without a centre
bearing. This achieves weight savings of 40 per cent over the previous model
and a reduction in rotating masses, which in turn results in more dynamic
powertrain response.
The CFRP strut brace in the engine compartment is a further example of how
all weight-saving measures on these vehicles have also been tailored to the
improvement of driving dynamics. Weighing only 1.5 kilograms, the strut brace
offers superior rigidity to a comparable aluminium component, and at the same
time plays a key part in the excellent steering response and precision of both
vehicles.
The use of carbon in these models is a reminder that BMW is a global leader
in high-strength, lightweight CFRP construction, and that it was BMW who
brought out the first mass-production vehicle with a body consisting entirely
of this material - the innovative BMW i3.
Development input from professional racing drivers: BMW works driver Bruno Spengler on the technical highlights
When developing the new BMW M3 Sedan and new BMW M4 Coupe, the BMW M
engineers could count not only on track-honed technologies, but also on the
driving talent of experienced racers. For example, Bruno Spengler and Timo
Glock, BMW Motorsport works drivers in the DTM Deutsche Tourenwagen Masters
(German Touring Car Masters) series, took part in extensive testing and set-up
runs on the Nürburgring-Nordschleife circuit.
"I'm proud to have made a contribution to the set-up work on these two
cars," says 2012 DTM champion Spengler, who also took third place in the
2013 series. "The suspension has a very sporty set-up, the feedback from
the front axle is extremely direct, the grip at the rear axle is phenomenal and
the engine performance is awesome. This is the ideal basis for our DTM
car."
Bruno Spengler on the six-in-line engine with M TwinPower Turbo technology:
"As a race driver, I'm very impressed by the instant, lag-free
response from the two turbos as soon you step on the gas. This is a sensational
feature of this engine which translates to more fun at the wheel and is perfect
for sporty driving."
…on the electronic power steering:
"The electronic power steering is very precise, and from my point of
view as a race driver that's very, very important. It responds instantly to
inputs and provides excellent feedback."
…on the rear axle:
"The rear axle has a very progressive locking action, due to the
electronically controlled limited-slip differential, and generates huge amounts
of grip. The electronic control system is configured so that when you lift off
the gas going into corners, the differential opens up and the lock-up effect is
reduced to zero, resulting in very eager turn-in. When you accelerate out of
the corner again, the lock-up engages progressively all the way up to 100 per
cent full lock, for optimal traction."
Design: Striking use of forms underlines standout performance capability
The design of the new BMW M3 Sedan and new BMW M4 Coupe visualises in
eye-catching style the outstanding performance capability and impressive
handling properties of the two new models. "The superior performance of
the BMW M3 Sedan and BMW M4 Coupe should be obvious at first glance,"
explains Karim Habib, Head of Design BMW Automobiles. "Indeed, the
exterior design of the new BMW M3 and BMW M4 has a visual impact that elevates
the BMW M design language to a new level of expression, highlighted by a
purposeful character, emotional appeal and dynamic verve."
The front end: the powerfully expressive face of BMW M.
Viewed from the front, the BMW M3 Sedan and BMW M4 Coupe stand out most
prominently with their powerful contours and a strongly defined
threedimensionality, which lend them a powerfully expressive face.
Characteristic design elements leave no doubt that these cars are the work of
BMW M. There is the modern take on the twin headlight arrangement (with
optional LED technology), for example, not to mention the distinctive twin-bar
kidney grille with black painted grille bars - which reflect the design of the
characteristic BMW M double-spoke wheels and bear the M logo - and the
powerfully designed front apron with its trio of large intakes supplying
cooling air to the high-performance engine and brakes. Among the other hallmark
BMW M design features on display is the characteristic power dome on the
bonnet, which hints at the potential of the brawny M TwinPower Turbo engine and
creates space for the intercooler. And the striking exterior mirrors - with
their suggested twin-stalk mounts - also demand particular attention, their
design optimising the aerodynamics of the new BMW M3 Sedan and new BMW M4
Coupe.
The flanks: low-slung silhouette and dynamic lines.
The sides of both cars extend the dynamic impression created by their
respective front ends. The hallmark BMW proportions of a long bonnet, long
wheelbase, set-back glasshouse and short front overhang are lent further
emphasis by familiar M design elements. "The muscular wheel arches and
eye-catching surface forms clearly underline the dynamic potential of the BMW
M3 and BMW M4," adds Habib.
Those dynamics-accentuating details include likewise newly designed M
gills, which perform both a stylistic and a functional role. Integrated into
them are Air Breathers, which team up with the Air Curtains in the front apron
to help optimise the airflow around the wheel arches and therefore improve
aerodynamics.
The dark colour of the CFRP roof (with its contoured roofline) gives both
models a lower-slung and more compact appearance, as the eye perceives the roof
pillars - painted in body colour - to be the uppermost point of the car. A
flowing roofline lends the already sporting overall appearance of the BMW M3
Sedan and BMW M4 Coupe an extra elegance and finesse. The line gains in
momentum once again as it heads rearwards, increasing aerodynamic downforce and
giving the rear a more muscular look at the same time.
The rear: BMW M4 with spoiler integrated into the boot lid.
The design of the rear end displays striking differences in the two models.
The BMW M3 Sedan, for example, is fitted with a Gurney spoiler to reduce lift,
while the tailgate of the BMW M4 Coupe features an integrated rear spoiler and
is made from particularly lightweight carbon-fibre-reinforced plastic. As well
as performing a functional aerodynamic role, the tailgate also contributes
significantly to the BMW M4's standalone design. Indeed, the pair of lines
which begin life flanking the power dome in the bonnet - and score a clearly
defined path over the CFRP roof - complete their journey in the boot lid.
A shared feature of the two models are the prominently flared rear wheel
arches which, in combination with the wide track, underline the confident
appearance of the BMW M3 and BMW M4. A characteristic BMW M detail of the rear
end are the high-gloss polished, now slanting pair of twin exhaust tailpipes,
which are framed like jewels by the sculptural rear apron with its integrated
diffuser.
The interior design: flawless ergonomics in a sporting ambience.
Climbing into the BMW M3 and BMW M4, drivers will be greeted by the
interior architecture familiar from the BMW 3-Series and BMW 4-Series, complete
with unimpeachable ergonomics and clear driver focus. In keeping with the
character of the two models, however, the interior fulfils an even more sharply
defined sporting brief. To this end, the host of traditional BMW M equipment
details includes M door sill finishers, an M driver's footrest, M gearshift
lever, M-design circular instruments with white graphics, M leather steering
wheel with chrome trim, colour contrast stitching and electroplatedlook shift
paddles (if the M DCT gearbox is specified).
The front seats also represent an evocative expression of BMW M's motor
sport genes. Taking visual inspiration from the bucket seats fitted in racing
cars, the seats feature a full-size single-piece back panel. This means the
construction of the seats is very flat, while the high, width-adjustable side
bolsters and low-set seat surface allow an ideal seating position and provide
excellent support. Despite their undeniably sporty design, the BMW M sports
seats can be specified as an option with comfort-enhancing features including
electric adjustment and heating. On the seat surface, the stitching, upholstery
segmentation and perforation lend the seats a slim-fitting feel. Illuminated
for the first time, the BMW M logo on the seat backrests adds a new and
exclusive highlight.
Equipment: Extensive standard equipment joined by a host of options that enhance dynamics and comfort
The new BMW M3 Sedan and new BMW M4 Coupe leave the factory with a thorough
selection of equipment on board which reflects their character as extremely
performance-oriented cars offering excellent everyday usability. In addition,
customers can choose from an extensive range of optional equipment to give the
high-performance sports cars an even more uncompromising sporting edge or push
their comfort levels to the maximum. And for customers keen to place a very
personal stamp on proceedings, the wide-reaching spectrum of BMW Individual
items - including BMW Individual paint finishes, BMW Individual Merino leather
and BMW Individual interior trim elements - will be another avenue well worth
exploring.
Carbon roof as a visible sign of the commitment to lightweight design.
The CFRP roof, which was fitted to the Coupe version only of the outgoing
BMW M3, is a standard feature of both the new BMW M3 Sedan and the new BMW M4
Coupe. The "exposed" styling of the carbon-fibre construction
accentuates not only the exclusivity of the two models and their direct links
to motor sport, it also emphasises clearly the lightweight design philosophy
underpinning the cars.
Other standard-fitted and exclusive exterior details include the
lightweight bonnet with eye-catching power dome, the font side panels made from
aluminium, the sculpted front apron with three large air intakes, the black
double-bar kidney grille, the hallmark M exterior mirror casings, the rear
apron with integrated diffuser, the exhaust system with four tailpipes, and the
boot lid with fitted Gurney on the BMW M3 or the aerodynamically shaped
lightweight tailgate with integrated spoiler of the BMW M4. Both models come as
standard with forged 18-inch BMW M light-alloy wheels with mixedsize tyres.
Forged 19-inch light-alloy wheels with mixed-size tyres can be ordered as an
option, in either Ferric Grey or Black.
Interior with exquisite materials and motor sport ambience.
The BMW M3 and BMW M4 also stand out with an interior that is exclusive and
functional in equal measure. For example, the M Sport leather multifunction
steering wheel is fitted as standard, as are bucket-style M sports seats and
the BMW Individual roof liner in Anthracite. Like the front seats, the
distinctively contoured backrests of the rear seats also offer exceptional
lateral support. They are made from a lightweight composite material and can be
folded in a 60:40 split. This gives the BMW M3 and BMW M4 a degree of
variability and everyday usability that is well beyond the norm for
highperformance sports cars of their level.
Drivers of the BMW M3 and BMW M4 can look forward to piloting their car
from behind a double-spoke M leather steering wheel. The M logo, chrome trim
and colour contrast stitching are central elements of the cabin's racing
ambience. Both models come as standard with a six-speed manual gearbox, while
the seven-speed M Double Clutch Transmission is available as an option. M DCT
allows the driver to change gears using either the selector lever on the centre
console or the shift paddles mounted on the steering wheel.
Innovative driveline and chassis technology deliver unbeatable dynamics.
The optional M DCT Drivelogic changes gear with no interruption in the flow
of power, enabling it to reduce shift times, while a Launch Control system
optimises acceleration off the line. M DCT additionally features the Smokey
Burnout function, which allows the driver to indulge in a degree of rear wheel
spin while the car is moving at low speeds.
The standard-specification Active M Differential at the rear axle
guarantees optimum traction, while the likewise factory-fitted
electromechanical M Servotronic steering with three settings delivers sporty,
direct responses. Both the new BMW M3 and new BMW M4 are equipped as standard
with BMW M compound brakes, but customers can also order their car with even
lighter and more effective BMW M carbon ceramic brakes, which come with the
additional visual highlight of gold-painted callipers.
Optional add-ons for comprehensive driver information.
Keen track drivers will be pleased to hear that BMW M GmbH has developed a
free BMW M Laptimer app, which allows owners to analyse their personal driving
style. Once their smartphone is hooked up to the BMW - via USB cable or the
car's snap-in adapter - customers can operate the BMW M Laptimer app easily
using the iDrive Controller. The app then gets to work without delay, recording
the car's speed, longitudinal and lateral acceleration, engine revs, the gear
engaged (if the M DCT or automatic gearbox is specified), steering angle,
accelerator position and fuel consumption. That means, when the data is
subsequently analysed via graphic displays on the customer's smartphone, the
driver's reactions can also be assessed. Another feature allows two recordings
on the same track to be compared corner-by-corner. The readings used here can
be either the driver's own or data shared via email.
The BMW M3 Sedan and BMW M4 Coupe are also available - needless to say -
with the wide variety of driver assistance systems and mobility services
introduced under the BMW ConnectedDrive banner, some of which will already be
familiar from the BMW 3-Series and BMW 4-Series. Among the highlights are a new
generation of the Navigation system Professional, offering extra capability,
sharper graphics and 3D elements for the map display, Driving Assistant Plus,
which warns the driver of a looming collision with a pedestrian, the
intelligent anti-dazzle LED High Beam Assistant, Active Protection with
Attention Assistant and a further developed version of Active Cruise Control
with Stop & Go function.
The optional Head-Up Display in the BMW M3 and BMW M4 comes with
additional, M-specific functions such as a gear display, rev counter and
Optimum Shift Indicator.
Production: Return to the birthplace of the BMW M3
It was at the Preußenstraße headquarters of BMW Motorsport GmbH in Munich
28 years ago that the company's then managing director Paul Rosche developed
the idea for the BMW M3. Production began just a few months later at the
original BMW plant next door. A total of 17,970 units of the firstgeneration
BMW M3 were built here up to 1991. And now, almost 23 years later, production
of the iconic sports car - long since guaranteed legendary status - is
returning to its birthplace. BMW Plant Munich will host production of the new
BMW M4 Coupe, while the BMW M3 Sedan will be built at BMW Plant Regensburg,
where 222,293 units of the second, third and fourth generations of the BMW M3 combined
have been produced since 1992.
Full integration into the regular manufacturing process.
One of the reasons for the decision to split production of the BMW M3 and
BMW M4 between the two facilities centred on the company's commitment to
integrating the two high-performance sports cars into the production processes
for their respective donor models. For example, the BMW M4 will be built
alongside models including the standard BMW 4-Series Coupe in Munich, and
Regensburg is the venue for production of the BMW 3-Series Sedan as well as the
new BMW M3. Among the benefits of "mixed" production on a shared line
is that the plants can respond quickly to market fluctuations by making
adjustments to unit figures as required. As well as efficient production
planning and logistics, the essential ingredient in this approach is the
single-line system: both M models will be built alongside their respective
donor models on the same production line.
Intensive experience-sharing ensures a smooth production start-up.
This will be the first time the Munich plant has handled production of a
lightweight design concept bringing together an aluminium bonnet and side
panels, CFRP roof and lightweight tailgate in this combination. The bonding
facility for the carbon roof in the paintshop is also new to Munich. The
intensive sharing of experience with colleagues in Regensburg helps ensure that
the employees in Munich maintain an outstanding level of manufacturing
expertise when it comes to lightweight design technologies. Indeed, Plant
Regensburg can call on many years of experience in lightweight design. As well
as production of the outgoing generation of the BMW M3 with its carbon roof,
the Regensburg factory has also been responsible for the manufacture of
numerous BMW Motorsport touring cars built for race action.
Hall of fame: The evolution of an automotive legend over three decades
The new BMW M3 Sedan and new BMW M4 Coupe represent the fifth generation of
a pure-bred sports car offering excellent everyday usability - one which has
raised the bar in the ultra-high-performance mid-size sedan/coupe segment at
every turn over the last three decades. "The BMW M3 has been our iconic
model in the high-performance sports car segment since 1985, when the company
unveiled the first generation of the BMW M3 at the International Motor Show
(IAA) in Frankfurt," recalls Dr Friedrich Nitschke, President BMW M GmbH.
"Today, 28 years later, the new BMW M3 Sedan and new BMW M4 Coupe are set
to extend this tradition into a fifth generation and take the car's unique
combination of outstanding dynamics and unrestricted everyday usability to yet
another new level."
The first generation: forming the basis for the world's most successful touring car.
In spring 1985, the BMW Motorsport department began development of a racing
machine to line up in touring car competition. The roadgoing version required
for homologation - 5,000 examples of which had to be built for sale per year to
satisfy the sporting regulations for this category of racing - was conceived
from the outset as a race-ready Group A machine. The inaugural BMW M3
celebrated its premiere in September 1985 at the Frankfurt Motor Show (IAA),
with the market launch following in summer 1986. Its naturally aspirated
four-cylinder engine developed 143 kW/195 hp (version without catalytic
converter: 147 kW/200 hp) from a 2.3-litre displacement, accelerated from 0 to
100 km/h / 62 mph in 6.8 s (6.7 s) and had a top speed of 230 km/h / 143 mph
(235 km/h / 146 mph).
In this trim, the first-generation BMW M3 exceeded all sales expectations.
Including the Convertible variant, the various evolution stages of the car and
the special-edition models, BMW had sold a total of 17,970 units worldwide by
the time production was wrapped up in 1991.
The second generation: three variants of a "wolf in sheep's clothing".
The successor to the original M3 was not designed as the basis for a racing
car. However, it was developed from the outset in three body variants. The
two-door Coupe, which made its debut in 1992, was followed onto the market in
1994 by a Convertible and - for the first time - a four-door Sedan. All three
models were powered by a six-cylinder 3.0-litre engine developing 210 kW/286
hp, which powered the car to 100 km/h / 62 mph from a standstill in under six
seconds. Top speed was electronically limited to 250 km/h / 155 mph. A
small-series M3 GT variant was added to the range in 1994, its 217 kW/295 hp
sending it straight to the top of the M3 performance scale at the time. In 1995
the car's displacement was increased to 3.2 litres and output rose to 236
kW/321 hp.
In 1997 the BMW M3 became the world's first volume-produced car to be made
available as an option with the Sequential M Gearbox (SMG). This transmission
variant was based on the conventional gearbox for the M3, but with a clutch
that was activated electrohydraulically to change gears. M3 drivers no longer
needed to press a clutch pedal; all they had to do to change gear instantly on
one level was pull or push the gearshift lever. Initial scepticism was defied
by impressive success, and by the time production came to an end almost one in
every two examples of this generation of the M3 generation was fitted with an
SMG gearbox. The M3 had grown from a niche sports car to a resounding sales
success: 71,242 units of the Coupe, Convertible and Sedan combined were
produced at Regensburg.
Several design features of the second-generation BMW M3 also cemented their
places in the driver's consciousness. They included special light-alloy wheels
in double-spoke design and the specially formed, aerodynamically optimised
exterior mirror casings with their two wing-shaped struts. These highlights
have been revisited time and again in subsequent generations of the M3 in the
form of some fascinating design cues.
The third generation: enhanced dynamics in a sharper design.
The third generation of the BMW M3 - launched in 2000 and available in
coupe or convertible form only - added another, now traditional, signature feature
to the model: a power dome on the bonnet. The new model also raised the bar
another not inconsiderable notch in terms of performance and dynamics. Its
six-cylinder in-line engine still had 3.2-litre displacement, but now developed
252 kW/343 hp. And that meant the M3 could accelerate from 0 to 100 km/h / 62
mph in 5.2 seconds (Convertible: 5.5 s), should the occasion demand. Almost
more impressive still, though, was the sprint from 80 to 120 km/h / 50 to 75
mph, which could be dispatched in a mere 5.4 seconds. Evidence of the
six-cylinder engine's exceptional pulling power could not have been provided
any more emphatically.
For the first time, the BMW M3 now also came with a variable differential
lock at the rear axle allowing anywhere between 0 and 100 per cent lock. The
results were noticeable benefits in terms of traction and grip when pulling
away and cornering at pace. Added to which, the second generation of the
Sequential M Gearbox (SMG II) now also allowed the driver to change gear using
paddles on the steering wheel.
The sporting flagship of this M3 generation was the BMW M3 CSL introduced
in 2003. The three-letter suffix stood for "Coupe Sport Lightweight",
a billing justified by elements such as a carbon-fibre roof, centre console and
door panels, a lighter rear window and the omission of numerous
comfort-oriented features. With a kerb weight of just 1,385 kilograms, it
tipped the scales some 110 kilograms below the standard M3. All 1,383 units of
the 265 kW/360 hp "cornering king" were sold within just a few
months.
The fourth generation: V8 engine and intelligent lightweight design.
2007 signalled a break with tradition as the BMW M3 took to the stage for
the first time in 15 years without the straight-six unit so frequently crowned
Engine of the Year. Instead, the fourth-generation car - which appeared in
coupe, sedan and convertible form (the latter joined the range in 2008) - was
powered by an eight-cylinder unit. The new 3,999cc engine developed 309 kW/420
hp and some 85 per cent of its maximum 400 Newton metres (542 lb-ft) of torque
was available across a huge 6,500 rpm rev range. The engineers continued along
the path of lightweight design with the Coupe in particular. On the back of
positive experience with other M models, the roof was once again made from
carbon-fibre-reinforced plastic. The bonnet with its striking power dome was
made from aluminium, as were large sections of the newly developed lightweight
chassis.
Among the highlights of the fourth-generation car's production run were the
exclusive small-series variants of the BMW M3 which shone an even brighter
spotlight on its racing-inspired characteristics. Here, the BMW M3 GTS -
road-registered but developed for clubsport racing - stood out in particular.
The displacement of the standard M3's V8 engine was expanded to 4.4 litres to
produce peak output of 331 kW/450 hp. Specially developed chassis components
and aerodynamic measures, plus a two-seat cockpit conceived for track use,
equipped this exclusive special-edition model (only available in show-stealing
Fire Orange paintwork) for competitive action on the track and generated a
particularly intense M feeling on the road. 135 examples of the BMW M3 GTS were
delivered to customers.
The BMW M3 CRT (Carbon Racing Technology) presented in 2011 was limited to
just 67 units. Exclusively manufactured lightweight components and modified
chassis technology imbued this 331 kW/450 hp model, which was based on the BMW
M3 Sedan and built at the BMW M GmbH factory, with exceptionally precise
handling balance. The bonnet of the BMW M3 CRT was made from two CFRP mouldings
encasing an aramid honeycomb structure, its bucket seats featured two CFRP
layers wrapped around a recycled-paper honeycomb, and a carbon layer made using
conventional production technology was added to visible areas. A rear spoiler
and an air-channelling element integrated into the front apron (both made from
CFRP) rounded off the exclusive lightweight elements found on the BMW M3 CRT.
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