Alfa Romeo 4C: ‘Just Drive’
- Alfa Romeo 4C marks a return to lightweight sports coupés for the brand
- Alfa 4C has a total dry weight of 895kg with a weight to power ratio of under 4kg/HP
- F1-inspired carbon fibre monocoque weighs just 65kg
- Advanced materials and construction ensure lightness and rigidity
- Compact, agile and engineered for pure driving satisfaction
- Supercar performance with impressive economy and emissions
- Alfa 4C produced in Modena with Alfa Romeo design and Maserati manufacturing functions
- Production process combines high technology and craftsmanship
- Over 1,000 Alfa 4Cs can be produced each year at the Modena facility
‘Just drive’ is a clear invitation to experience those genuine sensations that only Alfa Romeo is able to offer. The new signature that will accompany the communication of the Alfa Romeo models originates with the presentation of the 4C, the small thoroughbred car that marks the return of the brand to the world of lightweight sports coupés.
The Alfa Romeo 4C is essentiality and light weight, a car where everything has been designed to provide total driving pleasure. That same essentiality shaped its design. The car expresses a “natural beauty” that results from a perfect blend of function and form. Its layout and size immediately brings one of the most beautiful coupés of all time to mind, the Alfa Romeo 33 Stradale. Like the legendary 33 Stradale, the 4C is designed to meet extreme mechanical and functional requirements. Its body aerodynamically ‘covers’ the engine and chassis with clean and essential surfaces.
Extraordinary performance, unique handling, extreme aerodynamics and design that takes up the stylistic features of the Alfa Romeo tradition. This in brief is the new Alfa Romeo 4C, a driving machine without compromise that beckons drivers to take to the road or track to experience the thrill of driving it.
Designed by Alfa Romeo engineers and made at the Maserati plant in Modena, this captivating coupé with two racing bucket seats uses materials and design solutions like carbon, aluminium, and rear-wheel drive derived from the 8C Competizione along with technologies from Alfa Romeo’s latest models, all thoroughly revised to maximise the new car’s sporting appeal. Proof of that lies in the new 1750 Turbo Petrol with direct injection and aluminium block, the sophisticated latest-generation “Alfa TCT” dry twin clutch automatic transmission and the Alfa DNA driving mode selector with the brand-new Race mode.
A length of approximately 4 metres and a wheelbase of less than 2.4 metres emphasise the car’s compact size while also accentuating its agility. The dynamic qualities of the Alfa Romeo 4C are confirmed by a weight to power ratio of less than 4 kg/HP; it’s a value worthy of a ‘supercar’.
This vehicle quite simply screams Alfa. Its sports car soul creates unique driving sensations, both on the road and when racing, where velocity and transverse accelerations offer even the most expert driver unrivalled driving thrills: from 0 to 100 km/h in just 4.5 seconds flat, 258 km/h of top speed, deceleration peaks in the range of 1.2 g and lateral acceleration peaks over 1.1 g. All this is also achieved with a balanced weight distribution, with 40% on the front axle and 60% on the rear.
If these figures attest to the outstanding performance and dynamic qualities of the 4C, there is one characteristic enduringly connected to every Alfa Romeo: ease in recognising one of the brand’s models through other senses. Not only is it eye-catching, but the sound of the engine has also been emphasised with low frequencies and the classic roar of the exhaust.
In the same way it has been studied with particular attention paid to an enveloping seat design so the car can be ‘felt’. ‘Body’ perceptions are felt inside and even more so – with an added thrill – at the wheel. The brake, for example, can be modulated when loaded to get the necessary feedback even in the most demanding braking situations. Steering, which has to convey as much ‘feel’ as possible, is unassisted, progressive and direct, and the accelerator is ready to handle exits from curves with as much acceleration as possible.
The annual availability of the 4C Alfa Romeo on the major world markets is limited to only 3,500 units – 1,000 units of which are earmarked for Europe. Starting in October it can be ordered at all Alfa Romeo dealerships in Europe.
The 4C marks the launch of Alfa Romeo’s global growth plan that, along with future models, is offered as a global brand that competes in the heart of the Premium market. This is the reason why it is developing synergies with the Premium brands of the Fiat-Chrysler Group, and Maserati in particular, which adds the strength of its history, its ability to innovate and its fame the world over. So in this sense the Alfa Romeo 4C supercar is a symbolic product with an extremely high level of quality and technological refinement that embodies the deepest values of the Alfa Romeo brand.
The acronym ‘4C’ draws its inspiration from the brand’s glorious past, projecting the values of technology and emotions into the future. Indeed, it refers to Alfa Romeo’s great sporting tradition: the acronyms 8C and 6C in the 1930s and 1940s distinguished cars – both racing and non – fitted with the powerful ‘eight cylinders’ and the innovative ‘six cylinders’, confirming in its design layout and construction the goal of achieving the weight/power ratio of an authentic supercar, less than 4 kg/HP, yet focusing not merely on the maximum power delivered, but on limiting the weight to guarantee maximum agility and top performance. To this end, the Alfa Romeo 4C uses state-of-the-art technologies and materials derived from super sports cars (including the Alfa Romeo 8C Competizione) – carbon fibre, aluminium, rear-wheel drive – and technologies from the latest standard models from Alfa Romeo, but updated to enhance the sports appeal of the new car even further.
- Balance: ultimate aerodynamic efficiency and elegant proportions
- Strength: muscle and sculpturesque shapes in rear volume and side
- Essentiality: functional interiors for total involvement in the driving experience
The compact dimensions make this car with 2 bucket seats truly unique among its competitors: it is just under 4 metres long, 200 cm wide, 118 cm high and with a wheelbase of less than 2.4 metres. These dimensions serve both to emphasise the car’s ‘supercar proportions’ and to accentuate its agility.
Designed by Alfa Romeo Centro Stile, the development of the 4C’s exterior was characterised from the start by the need to enhance the style of the car and the technical characteristics both from a dynamic and aerodynamic point of view. For this reason, all the style solutions adopted have been optimised in accordance with the ultimate goal of the car: performance.
To meet this end, the surfaces were treated as sculpture and engineers worked side by side with the designers to carve all the innovative aerodynamic solutions out of it. The result of this teamwork led to a car that conveys pure sports style through a union of technology and beauty, which is an essential requisite for any Alfa Romeo sports car, where form is always first and foremost function. Besides, every structural element has been conceived for maximum dynamic efficiency, and to help create the downforce needed to ensure maximum grip under fast cornering.
The rear volume, sinuous and enveloping, encloses and embraces the beating heart of the car: the mechanics and the engine, visible through the rear window. All this, thanks to the development of a marked musculature above the wheels, lends strength and power to the rear area.
The rear musculature supports its structure on round rear light clusters and on the side air intakes necessary to cool the intercooler and the air inlet for engine intake. From the energy-charged rear volume and the two side air intakes spring the two long muscles which lend speed and dynamism to the side, generating the necessary volume at the front end to house the headlights and, on the central part, the two robust ribs running along the bonnet, tracing the unmistakable “V” and coming to their natural conclusion around the shield. This, together with the two side intakes, forms the famous ‘Trefoil’, a distinguishing trait of all Alfa Romeo cars.
Even at the rear, what first appears to be an element of pure graphics actually serves a clear purpose. Look at the two lines alongside the number plate holder: aesthetically, these create two points of light that add movement and dynamism to the rear volume. Functionally, however, they also protect the light cluster from pendular weight in the event of rear impact.
The entire tail section ─ starting from the rear upper profile and the lower profile characterised by a large “diffuser” with aerodynamic spoiler and air outlets ─ was subjected to extensive wind tunnel testing to ensure the best possible aerodynamic performance.
Lastly, the exterior colour range reflects the spirit of the car and is essential as the Alfa personality demands: red, white, black and grey. However, special attention has been paid to technology with the introduction of three-layer colours. The by now consolidated and well-known Competizione Red is the essence of the Alfa Romeo spirit with its depth, shine and iridescence that shapes the volumes of the car.
Tradition and future
The Alfa Romeo 4C immediately brings to mind some of the traditional iconic models which have left a significant mark in the history of the Brand. Above all others, in terms of dimensional and layout similarities, one stands out in particular: the 33 Stradale of 1967, a car that combined extreme mechanical and functional requirements with an essential style which “clothed” the engine and chassis appropriately with unmistakable Alfa Romeo treatments.
The Alfa Romeo 4C has followed suit, and thus completes a journey which was embarked upon with the 8C Competizione, emphasising some particular concepts of the brand, such as compact size, dynamism and agility. The same search for the bare essentials has been applied to building one of the world’s lightest-weight cars, the Alfa Romeo 4C. A downright search for the ideal weight led to the formula to combine ‘lightness and efficiency’ while exploring new solutions and materials, not to mention meticulous development work involving highly advanced technologies, in many cases coming from the excellence of Formula 1 or the aviation sector.
The combination of ‘Lightness & Efficiency’ was the concept behind the design of some unforgettable Alfa Romeos of the past, such as the unforgotten star at Le Mans, the 8C 2900 B Touring of 1938 with full aluminium body, or the 1900 C52 “Disco Volante” of 1952 with a top speed of 230 km/h and weighing just 760 kg.
The captivating 4C is also the vehicle with which Alfa Romeo expresses its interpretation of ‘Technology’ – just like the 2010 Giulietta, the first car in the world to develop and adopt the TCT – and of ‘Dynamism’, a value that immediately brings to mind the 8C Competizione of 2007, the fastest Alfa Romeo road car in history and produced in a limited series of 500 units.
Today these values - Technology and Dynamism, Lightness & Efficiency, Italian Style – take shape in the new Alfa Romeo 4C, an uncompromising though accessible sports car, a technological and sensual supercar that offers precision, agility and great performance. In short, it is a car to drive and enjoy both on the road and on the track.
The interior of the Alfa Romeo 4C is the result of an in-depth study of anthropometric and ergonomic parameters that established a relationship between the sports layout of the car and features that form a ‘continuity’ with the design of the body. It is a design concept in which the various elements – dashboard, instruments and seats – follow specific driver and passenger usability and comfort criteria.
Definition of the interior took on particular importance when configuring the carbon fibre ‘monocoque’ cell. This veritable ‘monolithic core’ led to a rational organisation of the main construction elements in keeping with the principle of integrating parts and optimising weights. Initially focused on arranging controls and instruments so they are turned toward the driver, this approach actually simplified construction in terms of assembly processes and separation into subassemblies when industrialising the project.
The climate control system ducts are integrated with the entire dashboard block, which contains a supporting ‘technical spider’ structure inside the mould. Consisting of a thermoformed shell like those found on limited edition supercars, the dashboard is designed to make using functions simple and reaches its zenith in the concept of extreme driver-orientation, thanks to digital instruments and gear shift controls located on the appropriately shaped steering wheel.
The cockpit, which powerfully suggests the world of motorcycle racing and race cars, brings together all information necessary to drive and control the car. All readings are visible on the instrument panel, comprising an original digital display, containing all the control functions for the Alfa Romeo supercar.
This formal construction simplification in terms of reducing the number of components and placing the various parts in clear view meets the goal of concentrating the relationship with the car’s interior on the experience of driving. User-friendly and formal importance was given to positioning the TCT transmission selector, activated by buttons on the tunnel console, the gear change levers on the steering wheel, and the DNA system selector for changing the operating parameters of the engine and the chief mechanical and electronic devices.
With regard to the selection of materials, the Alfa Romeo 4C project is a perfect synthesis of the brand’s values. It is a combination of advanced technology and dynamism, sportiness and performance, and tradition and modernity. The lines, shapes, materials and colours emphasise this desire to take centre stage: the pride of being an Alfa Romeo. The material is not intended as a covering, but as an enhancement of the external and internal skin, volumes and, where possible, as a visible structure. The material is the very essence of the structure.
The aesthetic choices are based on technical and natural materials, and not appearance, but substance. The interior space is minimal and ‘naked’ in its treatments and finishes. The environment is dark black, embellished only by a few metal details with an aluminium effect. The real protagonist is carbon. As it is a structure, it is found both inside and outside the car in an aesthetic continuum and conveys technicality and lightness at the same time.
The seats, with a composite structure, ensure the perfect feeling of the road that the driver gets, thanks to the possibility of finding an ideal driving position while guaranteeing comfort even in everyday use. In detail, the seat upholstery ranges from technical fabrics with high performance and robust nylon yarns to natural leathers in the colours of Alfa Romeo tradition: red for sportiness and “dinamica”, a polyester microfibre with a soft and adhesive touch to keep grip on the seat, as well as on the road. Also the internal ‘asphalt type’, 3D and ‘rough’ grains call the real subject matter to mind: contact with the road. Finally, the pedal unit and footboards for driver and passenger are made of aluminium, in this way highlighting its sports character down to the smallest detail.
- Two bucket seats, rear wheel drive with a mid/rear mounted transverse engine
- Weight distribution: 40% on the front axle and 60% on the rear
Driving pleasure is the result of carefully balanced design. Rear wheel drive and a centrally mounted engine: the architecture of the Alfa Romeo 4C is typical of competition cars in which perfect weight distribution is the primary objective.
The Alfa Romeo 4C has rear wheel drive to make full use of the dynamic advantages afforded by this configuration. Rear wheel drive gives better grip under acceleration, when engine power throws weight towards the rear of the car. Rear wheel drive also lets you enter curves at higher speeds, delivering a far more intense driving experience.
The aluminium engine is centrally mounted. This significantly reduces weight as it
eliminates the need for a propeller shaft and optimises weight distribution – 40% on the front axle and 60% on the rear – by concentrating mass near the centre for crisper handling.
- A negative Cz contributes towards achieving increased stability at higher speeds
- Cx equal to 0.34, the best value among cars with negative lift
Having defined the 4C’s architecture, Alfa Romeo engineers started to search for the most suitable materials for this solution. Aluminium, steel, SMC and carbon fibre were chosen for their ability to combine lightness and efficiency. In this way a total dry weight of only 895 kg was achieved. This record makes the Alfa Romeo 4C one of the lightest cars in the world.
After choosing the materials, the designers worked on all external and internal flows of the car, paying close attention to every detail necessary to decrease the creation of vortices and at the same time to ensure cooling of the engine compartment. On top of this special design of the rear and lower underbody air intakes and over 200,000 hours of optimisation in the wind tunnel and on the track were added. The final result is a Cx equal to 0.34, the best value among cars with negative lift.
The Alfa Romeo 4C achieves maximum aerodynamic efficiency levels, guaranteeing a negative Cz which, as in racing cars, contributes towards achieving increased stability at higher speeds thanks to the negative lift.
- Weight to power ratio less than 4 kg/HP and total dry weight of only 895 kg
- The most advanced mixture of hi-tech materials having characteristics of exceptional stiffness and resistance combined with a very low specific weight
- The carbon fibre monocoque weighs only 65 kg
The Alfa Romeo 4C stems from a blank sheet of paper and an idea. The blank sheet of paper was a prerequisite for the conception, development and implementation of a new idea of a sports car: the “affordable supercar”. In fact, the 4C is designed to be not just an exclusive car in terms of content and performance, but also to become a dream that comes true for Alfa Romeo enthusiasts all over the world. So we had to think in terms of low production volumes – but still in the order of a few thousand cars a year.
So the blank sheet of paper, initially free from design and production restraints, became immediately enriched with new parameters and new challenges. The first is represented by a reference figure not to be ignored: a supercar must have a weight-to-power ratio of under 4 kg/HP. To achieve it, the Alfa Romeo engineers could focus on the horsepower – so much power, so much performance – but with consequent high purchase and running costs for a car that would have in this way become much less affordable. So they decided to take another route: reduce the car’s weight by choosing materials that combine lightness and efficiency, and improving – at times even creating – manufacturing processes that fuse high technology and craftsmanship. A total dry weight of only 895 kg was achieved in this way. It is a record that makes the 4C one of the lightest cars in the world.
To achieve this ambitious goal, lots of work was poured into the materials. They were chosen for their specific weights and for the chemical-physical, mechanical and technological properties that best meet the needs of performance and dynamic behaviour of a sports car. And this is the reason why the 895 kg of weight are mostly formed of aluminium, steel, lightened SMC and carbon fibre.
The secret of the lightness and dynamic behaviour of the Alfa Romeo 4C lies in the 10% of carbon fibre used, which represents as much as 25% on the entire volume of the 4C. Today carbon fibre is the material that guarantees the best efficiency between weight and stiffness. This is why it was chosen for the monocoque with a structural function that constitutes the central self-supporting cell of the chassis. It is a solution adopted by most advanced supercars. It combines savings in weight with excellent performance. In fact, the monocoque weighs only 65 kg.
Totally designed by the team of Alfa Romeo specialists, the monocoque is produced by Adler Plastic with an innovative production process that brings together the state of the art in terms of manufacturing technologies with the manual dexterity typical of Italian craftsmen. In this way it was possible to introduce the ‘pre-preg’ technology derived from Formula 1 into a series production. Alfa Romeo is the only brand able to do this, and its production rate tops 1,000 pieces a year.
‘Pre-preg’ carbon fibre, processed with a vacuum bag in an autoclave, has made it possible to move on from designing the piece to designing the material. In this way the monocoque reached levels of response to stresses and dynamic behaviour unthinkable with the adoption of other technologies and materials. The pre-preg carbon fibres can be arranged in the optimal structural direction with respect to the forces to achieve a result which only a metallic material could give with superimposed layers, different thicknesses and added reinforcements.
Moreover, polymerisation in the autoclave – ‘cocura’ in technical terms – allows box section structures normally coming out of multiple components (often of different materials) manufactured and assembled in several phases to be produced in a single process. This is what happens for the door pillar, for example. In the standard steel version, it is composed of about 6 pieces joined together and to the body in several stages of the production process.
With the ‘cocura’ process, the door pillar is a single object and part of the supporting structure.
In fact, the carbon fibre monocoque is a single piece – and as such it reacts to external stresses with obvious advantages in terms of dynamic behaviour.
The use of materials with high torsional stiffness and low specific weight distinguishes all the structural components of the Alfa Romeo 4C. As is demonstrated by the use of aluminium for the roof reinforcement cage and front and rear beams. Both the design of the components and the manufacturing process were altered in this case as well, in order to reduce its weight and increase its rigidity. More specifically, the designers created a new section for the struts that replaces the traditional rectangular section. In this way the beams are lighter and at the same time safer. They are also produced using the innovative ‘Cobapress’ process. This process combines the advantages of casting with those of press forging, which further compresses aluminium alloy to close any remaining porosity. All of this lightens the component to the benefit of its mechanical properties.
The continuous wire with cold metal transfer process is used for the welding. This results in extremely precise welding that does not distort the components and ensures optimum filling of all gaps.
Aluminium is also used in the hybrid type of front brake discs, with aluminium bell and cast iron ring gear. This is technology patented by SHW and it guarantees up to 2 kg of reduced weight per disc and improved braking. Moreover, the sophisticated brushed surface finish technology increases grip and feel of the pedal, while the innovative release system between disc and bell provides more comfortable and safer braking. Special steel radial pins handle the difference in thermal expansion between cast iron and aluminium and accurately transmit the braking motion.
SMC (Sheet Moulding Compound)
SMC (Sheet Moulding Compound) is used for the bodywork. It is a low-density, high-resistance composite which offers a 20% weight reduction compared to the traditional steel shell. The Alfa Romeo 4C is the first standard production vehicle with such a high percentage of low-density SMC: at just 1.5 g/cm³ it is significantly lighter than steel (~7.8 g/cm³) and aluminium (~2.7 g/cm³), as well as being more malleable. This feature granted that freedom in terms of style and design necessary to create a real Alfa Romeo recognisable at first glance. It is also a stable material which, in contrast to aluminium, does not deform in minor collisions, and is extremely resistant to chemical and atmospheric agents. It also disperses sound efficiently, increasing acoustic comfort.
Low-density SMC also ensures significant functional integration between parts, leading to a reduction in components, operations and assembly time, thus lowering production costs.
PUR-RIM (injected polyurethane)
PUR-RIM (injected polyurethane) was also chosen for the bumpers and mudguards for the reasons mentioned. It is a lightweight material (-20% compared to steel) suitable for creating even highly complex design elements like a 4C mud guard.
Not a single material, including glass, was neglected in order to get the lowest possible weight. In this specific case, weight was lightened by actually “slimming down” the silhouette. All the windows are on average 10% thinner than those normally used on a car so that the average weight is reduced by 15%. The windscreen is just 4 mm. This is an outstanding result, especially when we consider its particularly aerodynamic shape that is difficult to achieve with such a thin sheet of glass.
- Direct-injection 240 HP 1750 Turbo Petrol engine
- Aluminium block and specific intake and exhaust systems
- Torque and specific power values lead the class: over 200 Nm/l and 137 HP/l
- Top speed 258 km/h and from 0 to 100 km/h in just 4.5 seconds
- Direct petrol injection, dual continuous variable valve timing system, turbocharger and ‘scavenging’ system that eliminates ‘turbolag’
The new ‘4 cylinder’ 1750 Turbo Petrol with direct injection at 200 bar that achieves performance of absolute excellence is making its début on the Alfa Romeo 4C. Torque and specific power set new records for this size of engine at over 200 Nm/l and 137 HP/l, respectively, while maximum power of 240 HP (176 kW) is reached at 6000 rpm. The maximum torque of 350 Nm ensures its extraordinary elasticity and sportiness since it is maintained constant between 2100 and 4000 rpm, but 80% of the torque is already available at just 1800 rpm.
Fitted out like this, the compact supercar registers exceptional results both during pick-up and when accelerating. The Alfa Romeo 4C goes from 0 to 100 km/h in just 4.5 seconds and develops a top speed of over 250 km/h. Driving pleasure is magnified by the full, rich sound of the exhaust, where the low frequencies and classic roar have been emphasised. This impressive level of performance has been achieved with minimum impact on the environment. Thanks to multiple injection control and advanced anti-friction and energy loss reduction systems, the emissions of the Alfa Romeo 4C fall well within the strict limits of Euro 6.
Aluminium block and specific intake and exhaust systems
The Alfa Romeo 4C 240 HP direct injection 1750 Turbo Petrol engine implements an innovative aluminium block and specific intake and exhaust systems which have been optimised to enhance the sports appeal of the car even further. In addition, it boasts cutting-edge technical solutions including direct fuel injection, dual continuous variable valve timing system, a turbocharger and a revolutionary scavenging control system that gets rid of any turbo lag.
In line with the search to achieve as much lightness as possible, the 4C’s engine weighs 22 kg less than that of the Giulietta Quadrifoglio Verde. Helping reach this goal is the aluminium block with die-cast inserts that not only is lighter, but also contributes toward improving the rigidity of the engine and reducing its vibrations (fewer vibrations were obtained also by using a crankshaft with eight counterweights, which allows the maximum rpm to be increased).
To optimise performance, emissions and oil consumption, the cylinder head intake ducts were redesigned, as were the cylinder liners, which today are made of a special cast iron that is thinner. The pistons have new segmenting with reduced load.
The Alfa Romeo 4C’s advanced ‘scavenging’ technology maximises torque at low engine speeds and delivers more power in response to driver input. The control unit determines valve overlap times and angles with great precision to create a through-flow of air from the inlet manifold to the exhaust manifold. By improving the scavenging of the combustion chamber, this direct flow increases combustion efficiency and turbine speed and reduces turbo-lag.
To complement the ‘scavenging’ technology, the engine is also equipped with a new generation turbocharger and a pulse converter exhaust manifold that exploits pressure waves to boost torque at low engine speeds. The manifold and the turbine are made from microcast steel and designed to operate at very high temperatures (over 1000°) – a pre-requisite to low fuel consumption on medium-high speed motorway journeys. The wastegate valve is another helpful device for engine efficiency. This adjusts turbo pressure using control logic which varies to suit driving conditions, minimising pumping losses.
Like all top competition cars, the Alfa Romeo 4C uses an automatic cool-down system to protect its turbocharger. Switching off the engine would normally cause the immediate stoppage of oil circulation, leaving the oil in the turbocharger to stagnate at very high temperatures. The thermal stress suffered by the oil in this way causes a loss of lubricating capacity and also leads to the formation of residues that can damage the engine. To prevent this, Alfa Romeo has introduced an after-run pump. This electric pump is automatically controlled by the ECU and keeps oil circulating through the turbocharger until it has cooled sufficiently.
- 6-speed Alfa TCT dual dry clutch transmission
- New gear change management software
- New Launch Control for standing starts
Power alone could never deliver the superb performance of the Alfa Romeo 4C. An advanced transmission system is needed to control it. The 4C is equipped with an Alfa TCT 6-speed gearbox with dual dry clutch, a solution that combines the instant power of a sequential shift with all the convenience of an automatic.
A true point of reference of the category due to its low weight and extreme speed of actuation, the gears can be changed in sequential mode using the shift paddles located behind the steering wheel. In detail, the transmission works like two gearboxes in parallel, each with its own clutch. The next gear is selected while the previous gear is still engaged, eliminating all discontinuity in power transmission.
The Alfa TCT gearbox has been optimised for the Alfa Romeo supercar. The 4C’s special clutch features all-new control software that ensures the fastest possible gear shifts under all conditions. Gearshifts are more aggressive in the sporting performance modes, and drivers can clearly feel the new gear engaging, as on a racing car. On bends, on the other hand, gearshifts are completed in the smoothest way possible to avoid reducing stability.
The Alfa Romeo 4C is also fitted with Launch Control for easy high performance standing starts. Launch Control is activated by pressing the brake pedal while pushing the accelerator pedal all the way down and squeezing the paddle on the left of the steering wheel. As soon as you release the brake, the system automatically controls the gearbox, traction and power to maximise acceleration.
- From 0 to 100 km/h in just 4.5 seconds flat and 258 km/h of top speed
- Deceleration peaks in the range of 1.2 g and lateral acceleration peaks over 1.1 g
- New Alfa DNA selector with ‘Race’ mode
You look at it and you like it: wide tyres, low ride and a well-balanced aggressive style. It is beautiful. But that’s not all. You hear the engine and it excites you with its full and convincing mechanical sound. So there is nothing left to do except sit down behind the wheel, engage first gear and give yourself time and pleasure, because that is what it is all about: becoming familiar with direct controls immediate responses.
The Alfa Romeo 4C offers even the most expert driver extraordinary performance and sensations: from 0 to 100 km/h in just 4.5 seconds flat, 258 km/h of top speed, deceleration peaks in the range of 1.2 g and lateral acceleration peaks over 1.1 g. All this is also achieved with a balanced weight distribution, with 40% on the front axle and 60% on the rear.
Something else that is essential is keeping the unsuspended mass as low as possible. In a hypothetical run around the track, it is necessary to ensure that the wheels grip the terrain for as long as possible, which is to the full benefit of road hold and the longitudinal and transverse accelerations.
If these principles bring about the excellent dynamic qualities of the 4C, there is one characteristic enduringly connected to every Alfa Romeo: ease in recognising one of the brand’s models through other senses. So it is not only eye-catching, but the sound of the engine – which has been emphasised with low frequencies and the classic roar of the exhaust – and the enveloping seat designed so that the driver ‘feels’ the car also create its unique identity.
‘Body’ perceptions are felt inside and even more so – with an added thrill – at the wheel. The brake, for example, can be modulated when loaded to get the necessary feedback even in the most demanding braking situations. Steering, which has to convey as much ‘feel’ as possible is unassisted, progressive and ‘genuine’, and the accelerator is ready to handle exits from curves with as much acceleration as possible.
Like all the latest-generation Alfa Romeos, the 4C as well is equipped with the DNA selector. This device lets the driver change the car’s temperament to adapt it to the conditions it is subjected to at the moment.
In addition to the three settings available up until today – Dynamic, Natural and All Weather – the device built for the Alfa Romeo supercar has a fourth mode: ‘Race’, designed to enhance the driving experience on a track even further.
Race is the most extreme performance mode, and is engaged by moving the mode selector to ‘Dynamic’ position and holding it there for 5 seconds. Alfa Race mode puts you in total control of your car under race conditions. By minimising the interventions of electronic systems, it leaves you, the driver, in complete control. In this situation, ESC stability control remains inactive and only intervenes to ensure stability under harsh braking. ASR does not intervene either on the acceleration or braking, leaving you to control traction through the accelerator pedal alone. Alfa’s Q2 electronic differential control system, on the other hand, remains active, as it is essential to permitting fast exits from bends.
Performance changes with the ‘Dynamic’ mode, which configures the car to deliver great driving performance. Engine control parameters are configured to respond quickly to accelerator input and the Alfa TCT gearbox selects a rapid action program to reduce gear shift times by up to 25%. The ESC system permits a certain angle of drift and only intervenes if steering wheel position and drift angle could put the car at risk.
Press the Alfa DNA selector to switch to ‘Natural’ mode, designed for everyday use. Gearshift parameters are configured for maximum comfort and smoothness. In manual mode, the Alfa TCT transmission makes up for loss of driver concentration. The Auto-Up function shifts up to the next gear when engine speed approaches the permitted limit, while the Auto-Down function shifts down as soon as engine speed falls below 1000 rpm. Finally, the Alfa Q2 differential operates in soft mode and only cuts in if one of the rear wheels suffers a significant loss of grip.
Finally, all you have to do is switch the selector to ‘All Weather’ mode to ensure maximum safety under adverse weather conditions. With this setting the car responds to accelerator input very gently. The ASR system selects special engine and brake control logic and, in the event of loss of grip, modifies power to match road speed and prevent skidding that could otherwise be difficult to control.
- Sports suspension with superimposed wishbones and advanced MacPherson
- Ventilated disc braking system: from 100 to 0 km/h in just 36 metres
- Different diameter tyres: 17”-18” or 18”-19”
- Steering ratio: 90% of bends without ever taking your hands off the steering wheel
In addition to its absolute performance, the handling of the Alfa Romeo 4C makes it one of a kind. You can fully enjoy the car in all situations, and not only during extreme use on the track, thanks to its feel and ease of driving at top levels. Sport suspensions, self-ventilated brake discs, different diameter tyres and direct steering: an advanced ride control system able to keep weight down to a minimum has been designed for the 4C.
The suspension adopts race-derived technical solutions to optimise performance and deliver unrivalled driving pleasure. A superimposed wishbone system is used on the front of the Alfa Romeo 4C. The wishbones are secured directly on the monocoque and comprise a coaxial spring-shock absorber assembly, tubular control arms and anti-roll bar, all lightweight and efficient.
An Advanced MacPherson geometry has been adopted on the rear to ensure superb road holding and driving fun, even in the most extreme manoeuvres. More specifically, hysteresis of the suspension has been improved with the side-load spring and the support plate of the shock absorber spring at the same time forming the upper constraint of the strut. In this way both height from ground and weight have been reduced, all to the benefit of grip and precision, even at high speeds.
The braking system of the Alfa Romeo 4C excels in terms of effectiveness and reliability, even in the most extreme driving conditions. The car can be braked from 100 to 0 km/h in just 36 metres. Merit for this goes to the hybrid self-ventilating, perforated discs complete with Brembo caliper on the front with aluminium bell and cast iron ring gear. This is technology patented by SHW and it guarantees up to 2 kg of reduced weight per disc and improved braking. Moreover, the sophisticated brushed surface finish technology increases grip and feel of the pedal, while the innovative release system between disc and bell provides more comfortable and safer braking. Special steel radial pins handle the difference in thermal expansion between cast iron and aluminium and accurately transmit the braking motion.
Different diameter tyres
The search for the greatest possible grip also led to the selection of different diameter tyres, 17″-18″ or 18″-19″, larger on the back to satisfy the need for greater grip on the axle where the traction works.
As it is entirely mechanical, therefore without power steering, steering with plasticised links contributes to limiting the total weight of the car and ensures a direct driving feeling for the driver. The steering ratio (16.2) is also such as to allow 90% of bends to be taken without ever taking your hands off the steering wheel.
- 4C workshops at the Maserati plant in Modena
- Watchwords: advanced technology and top quality craftsmanship
Alfa Romeo decided to produce the 4C supercar at the Maserati plant in Modena, where it set up the 4C Workshops inside, areas dedicated to the ‘bodyshell’ and ‘assembly’ operations. The ‘testing’ and ‘finishing’ areas, on the other hand, are shared with Maserati production. Here, the focus is always on evolved technology and top quality craftsmanship, a combination that leads to the production of cars that are truly unique in technical solutions and attention to detail.
‘Gems’ of technology and styling like the Quattroporte, Granturismo and Grancabrio have come off these lines in just the last decade, as did the fascinating Alfa Romeo 8C even more recently. It was the first time that the Maserati plant opened up its doors to another brand, one particularly similar to Maserati in terms of tradition and ambition.
Considering the past and recent background, it was natural that the Fiat Group would look to Modena for the standard production of the Alfa Romeo 4C, too. It is a car that starting from its structure comes out of the blend of the highest technology and the most meticulous attention that only man can guarantee. This is a manufacturing philosophy that is an integral part of the DNA of the Maserati plant in Modena.
Here innovation first of all blends together with the passion of the people, which manifests itself in rigour and the determination to do a good job. It is precisely the operator’s touch that adds value to the product, and so much so that the operating methods of this plant are far removed from the logic of ‘mass production’ to enter into a definitely more handmade dimension. Suffice it to say that the minimum ‘takt time’ – the production speed necessary to guarantee delivery – is 20 minutes. This figure illustrates the peculiarity of this factory when compared to the “mass production plants” where the shortest ‘takt time’ is in the order of 50 seconds.
The fundamental role played by human talent, considered as the wealth of technical skills and craftsmanship, becomes clear at this point. They are all very young men and women, expert operators, with an average age of 29 and of whom 60% hold a diploma or university degree, and whose experience is on the average over 5 years on Maserati models. These people make up a true elite of production professionals who can work with full knowledge even on 40 different stations and perform activities requiring from 20 to 40 minutes. This means they are fully rounded mechanics who practically master the entire production flow.
This is where the primary structure of the Alfa Romeo 4C is assembled, first creating the body in white of the car, and then putting on the preliminary ‘skins’. In taking a closer look, the operators at station 10 of the line join the carbon fibre monocoque to the two chassis, front and rear, and to the crossmembers. It is an operation done by hand, and during the entire process compliance of parameters like the ‘angle torque’ of the tightenings, guaranteeing that the connected components stay forever joined even in the most demanding conditions of use, is checked.
Shortly further on, at station 30, the cell of the car is closed by fitting the windscreen frame and roof. The peculiarity of this operation lies in the special templates used to give the passenger compartment cell the right geometry. The joints are made of high-tech chemical polymer materials and are reinforced with mechanical joints.
Once the bodyshell stage is finished, the Alfa Romeo 4C body in white faces up to quality control in the metrological room. Every day a few bodies taken as samples undergo highly precise measurement. The dedicated team checks more than 400 measurement points to be sure that the body is perfect on the geometric and dimensional level. No room is left for tolerance in this process: the measurements have to give results compliant with the project.
Painting and Assembly
The stage following the bodyshell stage is painting. It is the only process that is performed outside the Maserati plant. Once they have been painted, the bodies in white return ‘to be circulated’ on the Alfa Romeo 4C. One point must be stressed: the new compact supercar is the only car that starts its assembly phase with ‘disassembly’. In fact, before assembling the internal components at station 1, the car returns to its primary structure by removing the already painting ‘skins’, like the bonnet and doors, and the structural parts, like the rear beams and dome bar. It is only at this point that it is fastened to the rotating carrier.
The professional expertise of the operator is at the heart of the entire process in this area. That is why the work station and the entire logistics system have been built around the operators’ activities. All the components needed to produce the 4C arrive at the various stations in the right quantities, at the right place, and at the right time. For example, there are no useless or unnatural movements at station 2. The car is lifted or turned to always offer the side where operations are carried out at the right height. All this is a guarantee of quality and offers the people the chance to practise their manual dexterity in the best possible way.
Also operations like window assembly, carried out by robots elsewhere, are given over to the care and attention of people. This as well is an exclusive peculiarity of the 4C production process. And that’s not all. Many of the subassemblies of the car – lights and dashboard, for example – are assembled here at the factory, unlike what takes place at other industrial sites where they arrive already pre-assembled by the suppliers. These are all aspects that make a profound impact on the perceived and real quality of the finished product.
Testing area, road testing and finishing
Testing is the only stage of the production process entrusted to technology since it is necessary to objectify the quality of performance. The systems rigorously check every single detail of the car, from optimum operation of the climate control system to the setting of the mechanical components and dynamic behaviour.
After they have passed the testing area, all the 4Cs produced undergo a 40-km road test driven by an expert test driver. This is another practice typical of the most prestigious supercars. The team of test drivers is a major point of pride for the plant. All team members are expert drivers, passionately about sports driving and racing, and are exemplary professionals.
The production flow of the Alfa Romeo 4C almost reaches the end when the cars arrive at the Finishing area, where they undergo the final set-up operations before moving on to commercial logistics to go onto the market.
- An ‘essential’ model for ‘driving purists’ is available in all markets
- Mopar accessories and merchandising products
- Authorised Alfa Care 4C Service Centres
- Interactive video configurator
An unforgettable experience and driving pleasure will be the themes dominating the commercial launch of the Alfa Romeo 4C that, starting from October, can be ordered in all Alfa Romeo dealerships in Europe.
An ‘essential’ model for ‘driving purists’ will be available in all markets to exalt the driving experience to the utmost. It will be offered standard with evolved DNA selector, instrument panel with TFT technology and turbo pressure, oil temperature and Gmeter gauges, sporty fabric seats, leather steering wheel with shift paddles, alloy wheels (17″ in front, 18″ in the rear), grey brake calipers and twin exhaust pipes.
Customers can then decide to further personalise their cars by selecting from either an exclusive collection of accessories made by Mopar, the Parts & Service and Customer Care Division of the Fiat and Chrysler Groups, or a rich list of optionals including the Racing Pack (racing set-up, racing exhaust system, AR RACING tyres, 18/19” 5-hole wheels, sports steering wheel in leather with microfibre insert and red stitching) and the Luxury Pack (mixed leather and microfibre sports seats with red stitching, carbon fibre Bi-LED headlights).
Mopar accessories and merchandising products
Mopar has made a large number of accessories for the Alfa Romeo 4C that harmoniously blend with the technical and styling features of this supercar. To name just a few, there are the 17″ to 19″ black, grey or diamond black wheels, rear spoiler made of composite material or carbon fibre, black, red or yellow brake calipers, carbon fibre or chrome-plated door mirror fairings, carbon fibre dashboard and coloured engine cover. The optionals sold by Mopar in the aftermarket include the carbon fibre headlights, 18″-19″ larger wheels, racing exhaust tailpipe or racing set-up – including rear anti-roll bar and springs, shock absorbers and front anti-roll bar with specific calibration – that can be matched with race tyres specially developed with Pirelli.
Along with the collaboration of the Alfa Romeo Centro Stile, Mopar has come up with an exclusive merchandising collection inspired by the compact 4C supercar, presented for the first time at the 2013 Geneva International Motor Show. Today this valuable series is joined by a number of new top-quality products such as the ‘long board’ with 100% carbon fibre structure designed on an exclusive basis for the brand and made using materials and lines typical of Alfa’s DNA; the sporty red 4C sweatshirt with hood personalised with rich embroidery work and the backpack sporting a unique design and made of a waterproof fabric, complete with roomy pockets and a special device that increases its capacity. We also find the pen designed exclusively for the 4C, inspired by its aggressive lines and made with the same materials used on the car, such as carbon and aluminium.
These new products join the already rich 4C collection that includes various types of item: these include the more iconic, able to express the brand’s image and the content of its DNA to the full, such as the aluminium luge and the carbon sunglasses. Then there are those designed with fashion and lifestyle in mind, such as the high-impermeability raincoat, the carbon-brushed sweatshirt with softshell inserts. A more technological area is occupied by the ski or snowboard goggles with GPS connection for augmented reality. The car-shaped USB drive and the carbon cover for iPhone or iPad, on the other hand, are more geared towards fun.
Authorised Alfa Care 4C Service Centres
Qualified and trained personnel, specific diagnosis and repair tools, plus high levels of service. The 4C Service Network is born. It is a specialised service structure that will be present with Authorised 4C Service Centres throughout the EMEA area that can be contacted by dialling a dedicated freephone number.
The freephone number is available for providing technical and service information and for activating the roadside assistance supplied by the Authorised Centres, as are the routine maintenance and repair operations. And it is precisely repairs on which the chief new services focus.
The 4C is a ‘special’ car that is the fruit of innovative technologies and materials that require a targeted and highly professional approach, especially on the carbon fibre monocoque, aluminium components and SMC body.
More specifically, a special Diagnostics Centre has been created for the monocoque in Turin, which supports the 4C Service Centres in diagnosis and repair work. The facility boasts the professional expertise of a team of ‘flying doctors’ that can reach the 4C to be repaired at every Service Centre of the EMEA area if necessary, who analyse any damage the carbon fibre structure has sustained using radiographic and resonance technologies. In the case of slight or medium damage, they are equipped to make repairs on site. If, on the other hand, the damage is serious, the flying doctors opt to replace the monocoque at the Service Centre to which the customer turned.
The Alfa Care 4C Service Centres are also equipped to replace and repair aluminium beams. In detail, a repair system has been created for the rear beam, which is more complex to replace because it also houses the engine mountings. Repair requires that the damaged sections be cut and replaced, and that the parts be sealed with special adhesives that reproduce the cold welding effect.
Service Centre technicians are also able to repair slight or medium damages of the SMC parts of the body by using special instruments.
Type: 1750, aluminium, 4-cylinders, direct injection, turbocharged
Displacement (cm³): 1742
Maximum power: 240 hp (177 kW) @ 6000 rpm
Maximum torque: 350 Nm (258 ft lb) @ 2200 – 4250 rpm
DRIVING MODE SELECTOR
Type: Evolved Alfa D.N.A.
Positions: All Weather, Natural, Dynamic, Race
Gearbox: ALFA TCT dual dry-clutch, paddle controls and Launch Control
Number of gears: 6 + R
Differential: Electronic Q2
Type: Carbon fibre monocoque
Front suspension: Double wishbone
Rear suspension: Evolved MacPherson
Front brakes (mm): Dual-cast, perforated, self-ventilated, 305×28
with Brembo fixed: 4 piston calipers
Rear brakes (mm): Perforated, self-ventilated 292×22 discs
Standard front tyres: 205/45 R17
Standard rear tyres: 235/40 R18
Steering box: Rack and pinion
Acceleration 0 – 62 mph (secs): 4.5
Braking distance 62 – 0 mph (m): 36
Top speed: 257 km/h (160 mph)
Maximum braking deceleration (g): 1.25
Maximum lateral acceleration (g): 1.1
CAPACITIES – WEIGHTS
Unladen weight (kg): 895
Fuel tank (litres): 40
– EMISSIONS ACCORDING TO DIRECTIVE 1999/100/EC
Urban cycle mpg (l/100km): 28.8 (9.8)
Extra-urban cycle mpg (l/100km): 56.5 (5.0)
Combined cycle mpg (l/100km): 41.5 (6.8)
CO2 emissions (g/km): 157
Environmental classification: Euro 6
Number of seats: 2
Length (mm): 3989
Width (mm): 1864
Height (mm): 1183
Wheelbase (mm): 2380
Luggage compartment capacity (dm³): 110
ALFA ROMEO 4C COMPLETES “THE GREEN HELL” OF THE NÜRBURGRING IN JUST 8’04’’
- New Alfa Romeo 4C supercar completes a lap of the Nordschleife in just 8 minutes 04 seconds
- The lap time represents a new all-time record for all cars with engines producing less than 250hp
- The supercar was shod with special Pirelli Zero Trofeo tyres, the most sporty version in the Pirelli P Zero line, also type‐approved for road use on the German track
The new Alfa Romeo 4C has lapped the legendary Nordschleife at the historic Nürburgring circuit in Germany in a record-breaking time of 8 minutes 04 seconds, the fastest time of cars with engines under 250 HP and in line with times set by sports cars with much higher prices and more powerful engines. Driver, journalist and Nordschleife expert Horst von Saurma was behind the wheel when the record lap-time was set on September 12, 2013.
The test conducted at the ‘Green Hell’ in Germany is one of the countless tests that the Alfa Romeo supercar had to face in every part of the world, from the ‐35°in Sweden to the +40°of Abu Dhabi; from the Arizona (USA) deserts to the slopes of Mt. Etna in Sicily and from the Balocco test track in Italy track, where all Alfa Romeos have been developed, perfected and tested since 1962, to the one at the Nürburgring.
Used by car manufacturers the world over as a test and development track, the Nordschleife offers a unique configuration that alternates slow and fast curves, as well as straight stretches and undulations, to make it an outstanding testing ground for determining the soundness of a project.
In short, the ‘Green Hell’ proved to be the ideal place to put the performance features of the Alfa Romeo 4C to the test. This true, uncompromised driving machine delivers its best on the track, where speed, short braking distances and transverse acceleration are essential to get first‐rate lap times: 0 to 62mph in 4.5 seconds; 160mph of top speed; deceleration peaks in the range of 1.2 g; lateral acceleration peaks of over 1.1g and optimum weight distribution ‐40% over the front axle and 60% over the rear, not to mention a power-to-weight ratio of over 250hp per tonne, values worthy of true supercar.
Also contributing to the Alfa Romeo 4C’s performance at the Nürburgring were the special Pirelli P Zero Trofeo tyres, the sportiest version in the Pirelli P Zero line. A record was set not only on the track, but also in the development of the tyres: It took less than one year of collaboration between Pirelli and Alfa Romeo engineers to develop of the best solution for guaranteeing grip and precision while driving of the Alfa Romeo 4C. These special ‘AR’ P Zero tyres, available in two sizes, 17″ front and 18″ rear or 18″ front and 19″ rear, ensure grip, performance, sportiness and precision. The ‘AR Racing’ tyres, offered only in 18″ front and 19″ rear sizes, have been developed not only with road driving in mind, but also for use on the track.