4C Launch Edition

At the production 4C’s Geneva Motor Show debut in March 2013, Alfa Romeo announced the availability of 1000 Launch Edition cars (400 for Europe, Africa and the Middle East, 500 for North America and 100 for the rest of the world).
Each was automatically fitted with a range of normally optional equipment to include the racing exhaust, exposed carbonfibre headlight surrounds, exposed carbonfibre instrument pod, Bi-LED headlights, red brake calipers, 4C-branded floor mats and Black leather seats with microfibre centres and red stitching.
These cars were also equipped with several special parts such as a BMC air filter, a dark finish aluminium rear diffuser, a numbered plaque on the centre console plus re-calibrated shocks and a rear anti-roll bar.

Launch Edition equipment not initially available via the options list included exposed carbonfibre trim for the rear spoiler, exterior mirror housings, passenger-side dash insert and forward section of centre console. Additional inlets were cut into the bumpers just outboard of the headlights ostensibly to reduce front-end lift. The 18/19-inch 5-Disc wheels were given a special burnished dark titanium finish and contrast stitching was applied to the steering wheel, handbrake handle and door grab handles.
Initially, Alfa Romeo stated the Launch Edition was available in just two colours: Rosso Alfa and Carrera White. However, Rosso Competizione and Madreperla White were also subsequently offered.

 

USA Version

The US-spec. 4C was unveiled at the New York Motor Show in April 2014. To meet local safety regulations, aluminium bracing was added to the carbonfibre tub, single projector Xenon headlights were housed under clear covers and side airbags were fitted (which subsequently became standard in certain other markets).
Despite a 135kg weight gain, Alfa Romeo’s quoted performance figures were unchanged.
Deliveries began that summer for the 2015 model year.

 

2015 Updates & 4C Spider Production
In January 2015, Alfa Romeo unveiled the production-ready 4C Spider having displayed a prototype at Geneva in March 2014.

It came with a removable canvas roof, a reinforced matt black rollover hoop (which could optionally be configured in exposed carbonfibre), new flying buttress-type sail panels and a flat engine cover.
Some of the bracing elements from the US-spec. 4C Coupe were also adopted which led to the Spider tipping the scales at 1015kg (or 1128kg for the US version).
The Spider automatically came with new 5-Triangle-spoke 17/18-inch alloy wheels (silver as standard or dark finish as an option).

Across-the-board updates applied around this time included revisions to the suspension geometry and front dampers, a new audio system and improved transmission cooling.
Several new options also came on stream.
Buyers could now specify 18/19-inch ten-spoke Spider Design wheels in silver or dark finish, a switchable centrally-exiting Akropovic titaniuam exhaust, an exposed carbonfibre intake scoop for the gearbox (located ahead of the left-hand rear wheel), exposed carbonfibre mirror housings, Giallo paint, Tobacco leather and a leather-covered dash with contrast stitching.

 

4C Club Italia

In November 2015, Alfa Romeo produced a run of special edition 4Cs ordered by Club Italia exclusively for its members. Built to celebrate the inter-marque club’s 25th anniversary, a run of 15 cars was originally expected but a believed 17 were actually built.
Each 4C Club Italia was painted a special shade of red based on a 1960s colour: Alfa Romeo Corse Vintage.
Externally, these cars came with an exposed carbonfibre roof, body coloured anti-lift bumper inlets, an enamel Club Italia 25th anniversary shield on each front fender, 4C Club Italia decals on the rear fenders, exposed carbonfibre headlight assemblies, exposed carbonfibre exterior mirror housings (both with Italian motifs) and an exposed carbonfibre rear spoiler.
An Akropovic exhaust was installed as well.

Inside, there was a numbered Club Italia 25th anniversary decal on the driver’s side of the tub and an exposed carbonfibre Club Italia-branded insert for the passenger side of the dash. More exposed carbonfibre was used for the instrument pod and forward section of centre console.
Black leather seats with microfibre centres and red stitching were fitted and the steering wheel was upholstered to match. The door grab handles came with red stitching.
A numbered indoor car cover completed the specification.
The 4C Club Italias were handed over during a ceremony that took place at Alfa Romeo’s Balocco test track.

 

4C Spider 50th Anniversary Limited Edition
In January 2016, Alfa Romeo announced a batch of limited edition UK-market Spiders to celebrate the 50th anniversary of the much-loved Tipo 105 ‘Duetto’.

50 examples were built, each of which came with dark finish 18/19-inch Spider Design ten-spoke alloy wheels and single projector Xenon headlights.
Exposed carbonfibre was used for the roll hoop, gearbox intake scoop, dash pod and the exterior mirror housings (which also featured a 50th anniversary Italian flag motif). The normally optional leather-covered seats and dash were fitted as standard along with a race exhaust.
Each car came with a numbered plaque on the centre console and a Caracalla Limited Edition leather travel bag with stitching coloured to match the car’s body (either Rosso Competizione, Madreperla White or Giallo Prototipo).

 

4C / 4C Spider CPZ Track Edition
July 2016 saw Alfa Romeo announce a run of 20 cars built for the Netherlands market known as the CPZ Track Edition.

Available in both Coupe and Spider body styles, the CPZ Track Edition was created to honour the famous Zandvoort racing circuit.
Exposed carbonfibre was used for the roof (Coupe) or roll hoop (Spider) in addition to the exterior mirror housings, gearbox intake scoop, instrument pod and forward section of the centre console. 18/19-inch Spider Design ten-spoke dark finish wheels were fitted along with red brake calipers and single projector Xenon headlights.
A decal on each front fender featured a map of the Zandvoort circuit, a Dutch flag and Track Edition Circuit Park Zandvoort script.
Black leather seats with microfibre centres and red stitching were fitted and the steering wheel was trimmed to match.
Upon delivery to the Dutch distributor (FCA Netherlands) each CPZ Track Edition was fitted with a GPS-based lap timer linked to the car’s diagnostics. These 4Cs were also supplied with a certificate signed by the Zandvoort circuit owner and general manager of FCA Netherlands. A Guida Sportiva driving course at Zandvoort was included in the price.

 

4C Spider Edizione Corsa
Three months after the CPZ variant, a special 4C Spider was created for the other Benelux markets: Belgium and Luxembourg.

Launched in October 2016, the Edizione Corsa featured a special colour scheme of Rosso Competizione with a white centre stripe and noseband. There were also white stripes down each flank (complete with Alfa Romeo script) and a white roundel on the front lid that featured each car’s serial number.
Exposed carbonfibre was used for the roll hoop, anti-lift bumper inlets, gearbox intake scoop, exterior mirror housings and instrument pod.
The rest of the specification included the Racing Pack, 18/19-inch 5-Disc dark finish forged alloy wheels, red brake calipers, single projector Xenon headlights, black leather seats with red stitching, a black leather steering wheel with microfibre insert and red stitching, a premium Alpine audio system, a fire extinguisher and rear parking sensors.
35 examples were built, each of which was accompanied by a 4C Spider Edizione Corsa plaque (not fitted to the car) and a GoPro Hero 4 camera.

 

4C Rosso Forte
A German market 4C special edition followed in November 2016: the Rosso Forte.

20 copies were built, all of which were painted Rosso Alfa and fitted with racing suspension, an Akrapovic exhaust, dark finish 18/19-inch 5-Disc forged alloy wheels, red brake calipers and rear parking sensors.
Exposed carbonfibre was used for the rear spoiler, gearbox cooling scoop, exterior mirror housings, instrument pod and air vent nozzles.
Seat upholstery was black leather with microfibre centres and red stitching. The steering wheel was trimmed to match. A premium Alpine audio system was also thrown in.

 

4C Competizione
Alfa Romeo presented two 4C special editions at the Geneva Motor Show in March 2018.

The 4C Competizione was produced in a limited run of 108 cars, all of which were painted matt Vesuvio Grey. At no extra cost, buyers could specify an optional decal kit that comprised two full length matt black centre stripes with a red outer pinstripe. A large Alfa Romeo serpent featured on the front lid along with a white and green insert to the leading edge of the right-hand pinstripe.
Exposed carbonfibre was used for the roof, rear spoiler, exterior mirror housings, gearbox intake scoop and headlight surrounds.
Body coloured anti-lift intakes were standard along with 18/19-inch dark finish 5-Disc forged alloy wheels, red brake calipers and the Akropovic exhaust.

Inside, black leather seats with microfibre centres and red stitching were fitted along with a matching steering wheel.
Each 4C Competizione came with a numbered plaque on the centre console and a 4C Competizione-branded insert on the passenger side of the dash.

 

4C Spider Italia
The other special edition 4C unveiled at Geneva in March 2018 was the Spider Italia.
Production was limited to 108 units, all of which came in Misano Blue Metallic paint with the front intake shrouds / grilles and the rear apron / diffuser in high gloss Piano Black.

Other equipment included silver 18/19-inch 5-Disc forged alloy wheels, yellow brake calipers, Spider Italia emblems on each rear fender and an Akropovic exhaust.
Inside, the Spider Italia featured black leather and microfibre seats, a leather steering wheel with microfibre insert, a leather dash and door panels, yellow stitching to the seats, door panels, dash and steering wheel, a premium Alpine audio system and 4C-branded floor mats with yellow stitching.
A numbered plaque was located on the centre console along with a 4C Italia-branded passenger-side dash insert.

 

2018 Updates
For 2018, Basalt Grey, Black or White cars could be configured with yellow stitching (a colour only previously available with Giallo paint).
An exposed carbonfibre interior fascia pack was also added to the options list.

4C Edizione Speciale
In January 2018 it was the turn of the French market to receive a limited run 4C.

The 4C Edizione Speciale was a batch of 67 cars built in homage to the 1967 Tipo 33 Stradale.
Buyers could choose from one of four standard colours (White, Alfa Red, Prototipo Yellow and Pastel Black) or three optional shades (Stromboli Grey metallic, Competizione Red and Trofeo White).
Each 4C Edizione Speciale came with 18/19-inch dark finish 5-Disc forged alloy wheels, an Akropovic exhaust, the Racing pack, single projector Xenon headlights, leather seats and a leather dash with contrast stitching.
Exposed carbonfibre was used for the rear spoiler, exterior mirror housings, instrument pod, air vent nozzles, forward section of the centre console and passenger-side dash insert.

 

2019 Updates
For 2019, a reversing camera was added to US -bound Spiders and certain other export markets.

4C / 4C Spider 33 Stradale Tributo
The last 4C special edition was arguably the most spectacular and highly equipped derivative of all.

Announced in December 2020 to commemorate the end of 4C production, the 4C Spider 33 Stradale Tributo was Alfa Romeo’s US and Asian Pacific-market homage to one of their most desirable road cars: the Tipo 33 Stradale.
It featured a carbonfibre tub given a unique transparent red coating, custom Rosso Villa d’Este paint and special grey-gold 18/19-inch 5-Disc forged alloy wheels.
The front air intake grilles / shrouds and rear apron / diffuser were finished in high gloss Piano Black.
Exposed carbonfibre was used for the roof (Coupe) or roll hoop (Spider), the gearbox cooling scoop, the anti-lift bumper inlets and exterior mirror housings. The mirror housings also received an Italian flag motif and Centro Stile Alfa Romeo badges were affixed to the rear fenders.
Other equipment included single projector Xenon headlights, racing suspension and an Akropovic exhaust.
To mimic the original Tipo 33, the 4C Tributo’s seats were upholstered in Tobacco leather with black Dinamica alcantara centres. The leather-trimmed dash came with Tobacco stitching and the floor mats were embroidered with brown 4C logos.

A Tributo 33 Stradale insert was fitted on the passenger side of the dash and each car came with a numbered plaque on the centre console plus a commemorative book which was numbers matched to the car.
33 examples were built.

End of Production
Although the last 4Cs weren’t finished and sold until early 2021, they were based on cars with an earlier production date. The 4C Coupe was discontinued in mid 2019 and the Spider in mid 2020.
In seven years of production, a total of 9195 cars were built which fell well short of the circa 20,000 Alfa Romeo would have hoped to manufacture in such a timeframe.
The 4C platform subsequently lived on in the shape of the Abarth 1000 SP Classiche.

Guide: Alfa Romeo 4C — Supercar Nostalgia

Alfa Romeo - Alfa Romeo 4C - 2010s Italian Cars - 2010s Supercars

supercarnostalgia.com

 

Great write up and future reference for all 4C lovers

 

Fantastic write up! Thank you!

 

Wow! What a thorough history lesson. Thank you, @4C🍀 .

 

Well done Champ, buon anno 4C

 

This needs to be a sticky.

 

Awesome job, now we just need John's productions numbers added. This would also make a cool PDF file or similar. Thanks for posting this.

 

First off, this is an awesome thread. Couple quick things (I can do more later with the numbers later)

You forgot the Carbon Edition (Italy). 40 spiders, 20 yellow, 20 red.

Also, the press release for Edizione Speciale says 67 units but every points to 100 made (Alfa kind of notorious for this, lol)

 

This is what I have in total for the ‘editions’

 

Alfa 4C US and Euro Chassis Differences

In creating the Alfa Romeo 4C, the company wanted to create an affordable exotic car and spiritual successor of the legendary 33 Stradale. To achieve a very high level of performance yet stay within the targeted price range, Alfa Romeo turned to the use of lightweight materials which were previously used only for military and aerospace applications. This keeps the weight of the car low and subsequently allowed the use of a lightweight and powerful four cylinder engine that guarantees excellent performance due to a high power to weight ratio. The fact that the engine is an off the shelf unit helps keep the car within the required budget.

The net results are a car that has a dry weight of approximately 1973 lbs in Europe and has a power to weight ratio of 8.22 lb/hp. In the US, the Alfa Romeo 4C will gain some 342 lbs, due to structural and equipment changes. Below we'll take a look at the chassis of the Alfa Romeo 4C along with some of the differences between the US and European model, with the help of Fiat Chrysler Automobiles and Alfa Romeo.

Applications of composite materials for manufacturing vehicle chassis have so far been limited to supercars costing at least $200,000, or vehicles with very limited road use.

The Alfa Romeo 4C is the first sports car made with extensive use of composite materials like carbon fiber and offered at the price of a mid-sized luxury sedan.
The engineers and designers of the Alfa Romeo 4C had to face many challenges:
• High cost of materials
• Difficulty mass production application
• High design complexity
Achieving these goals allowed the engineers to obtain two main advantages: a high level of integration between components (a single complex carbon part instead of many welded or bolted steel parts) and a considerable reduction of weight.
To understand the benefits provided by the use of carbon it is useful to compare this material with "conventional" alloys and metals.

The 4C is not only the first sports car in its class to offer a carbon fiber chassis, it also spearheaded improved production methods of a wide range of components that had been difficult to apply to mass production, due to the conventional use of pressed steel.

The Alfa Romeo 4C chassis is dominated by the central carbon fiber "tub", which houses the passenger compartment and includes the attachment points of the front suspension.

A strong high resistance steel roll-bar is positioned behind the passengers. This prevents passenger compartment deformation in the event of roll over. There are aluminium structures at both ends that protect against impacts, the rear aluminium structure creates a "cradle" for the engine and transmission, and includes the attachments of the rear suspension. These structures feature controlled collapsibility for safety.

To comply with US crash standards, both the front and rear aluminium structures and the aluminium tub have significant differences on the versions sold in the US market compared to the European versions.
The differences in the European and US versions of the front chassis are indicated below. (front view)

 

There are also differences between the European and US versions of the aluminium front chassis. The various colors indicate
the different characteristics of the US and European chassis.
• Parts in red: specific parts added.
• Parts in blue: parts in common but different thickness.
• Parts in yellow: same volume but different thickness.
• Parts in grey: parts in common
The following, on the other hand, are the differences relating to the European and US versions of the rear chassis.

 

Inside the Alfa Romeo 4C
The Alfa Romeo 4C is a stunning example of Italian design and engineering. Carrying on a legacy of making legendary high performance cars, the new Alfa Romeo 4C is poised to become an instant classic. The concept guiding Alfa Romeo was to create an "affordable supercar" with all the performance and soul that only an Italian performance car delivers yet be attainable by anyone with means. To achieve these results, the Alfa Romeo 4C has been built utilizing the most advanced and exotic manufacturing techniques.
Alfa Romeo has published a look at what goes into building the new 4C. It is posted below in its entirety for you to enjoy.

Alfa Romeo 4C: excellence made in Italy
Alfa Romeo unveils the technical contents and manufacturing secrets of the new 'compact supercar' which embodies the sportiness intrinsic to the 'Alfa Romeo DNA': performance and engineering excellence offering maximum driving satisfaction in total safety in addition to breathtaking style.

The Alfa Romeo 4C developers have combined the best technical and manufacturing competencies of two brands: Alfa Romeo and Maserati. Thanks to the internal synergies of the Fiat – Chrysler Group, the two carmakers were able to collaborate from the perspective of integrating Alfa Romeo's design roles and Maserati's manufacturing functions. The engineering and technological contribution of other Italian world-wide leaders in the component industry for high-performance sportscars has also been instrumental in achieving the result.

In particular, the Maserati plant brings in topmost quality and meticulously studied details reminiscent of hand-crafted work. As the birthplace of the world's most famous 'sportscars,' Modena and its surroundings are definitely the place that offers everything one may need to manufacture them: tradition, technology and know-how, but most of all, the same passion driving the team who conceived, designed and built the Alfa Romeo 4C.
Hi-tech materials for weight/power ratio for the supercar
• Contents and performance become an achievable dream.
• The most advanced mix of hi-tech materials combines exceptional stiffness and strength with a reduced specific weight.
• Weight/power ratio lower than 4 kg/HP and total dry weight of just 895 kg.
• The carbon fibre monocoque weighs just 65 kg.
The Alfa Romeo 4C was born from a clean slate and an idea or, rather, the clean state was the prerequisite for conceiving, developing and producing a new concept in the domain of sportscars, the "affordable supercar." The 4C was designed not only to be an exclusive car both for contents and performance, but also to become an achievable dream for Alfa Romeo fans all over the world. As a consequence, it was necessary to think in terms of limited production volumes, but still in the order of some thousands vehicles per year and, therefore, decidedly higher than those of the practically handcrafted production characterising this class.
The clean slate, which was initially free of design and manufacturing constraints, was soon assigned new parameters and presented with new challenges the first of which was a fundamental reference data point: a supercar weight/power ratio must be less than 4 kg/HP.
To achieve the right ratio, Alfa Romeo designers could have focused on horsepower (i.e.: increasing power and performance), but this would have impacted the purchase and maintenance costs, thus making the car significantly less affordable. They decided to go a different way; they reduced the car weight by using materials where lightness is combined with efficiency and by perfecting, sometimes even creating, manufacturing processes where high technology is joined to craftsmanship. In this way they were able to obtain a total dry weight of just 895 kg, a true record that makes the 4C one of the lightest cars in the world. The 4C is lighter than a city car and its weight/power ratio is less than 4 kg/HP.

In order to achieve this ambitious goal a lot of attention was devoted to the materials, each of which was chosen on the basis of its specific weight as well as on the chemical-physical, mechanical and technological properties that best fulfil the performance requirements and dynamic behaviour needs of a sports car. The 895 kg of vehicle weight mainly consist of aluminium, steel, lightened SMC and carbon fibre.
Carbon fibre
The secret of the 4C Alfa Romeo lightness and dynamic behaviour lays in the use of 10% carbon fibre, which represents 25% of the 4C overall volume. At present, carbon fibre is the material offering the best weight/stiffness efficiency. This is the reason why it was chosen for the structural function monocoque that makes up the central, load-bearing cell of the chassis. This solution combines reduced weight and excellent performance, and is already adopted for the most advanced supercargo; the monocoque weighs just 65 kg.

The monocoque was entirely designed by the Alfa Romeo specialised team and manufactured by Adler Plastic by means of an innovative manufacturing process capable of joining state-of-the-art manufacturing technology and the manual craftsmanship typical of the Italian artisans. Thanks to this approach, the 'pre-preg' technology inspired by the Formula 1 was also transferred to standard manufacturing, so much so that Alfa Romeo is the only brand capable to assure a production of over 1,000 pieces per year.
'Pre-preg' carbon fibre processed in an autoclave with vacuum bag marked the passage from piece design to material design. The monocoque has reached stress and dynamic behaviour response levels that would be unthinkable with different technologies and materials.
'Pre-preg' carbon fibres may be arranged in an optimum structural direction in relation to the forces, thus producing a result that metal would only yield if layers were overlaid, shims differentiated, and reinforcements added.

In addition, the autoclave polymerisation makes it possible to manufacture box-section structures in one phase, whereas normally the production and assembly of various components often made of different materials is required. One example would be the door post. In its standard steel version, the door pillar is comprised of approximately 6 pieces assembled to one another and to the car body at different stages of the manufacturing process.
If autoclave polymerisation is used, the door post is a one-piece component included in the load-bearing structure. The monocoque is a carbon fibre one-piece structure and, as such, it resists external stress with a clear advantage in terms of dynamic behaviour.

Aluminium
The choice of materials characterised by high torsional rigidity and reduced specific weight is a common element to all of the 4C structural parts. An example in this sense is the use of aluminium for the roof reinforcement cage and the front and rear frameworks. Just as in the previous case, some interventions aimed at reducing the weight and increasing the stiffness of the component were made in the component design and manufacturing phases. In particular, the designers replaced the traditional rectangular strut section with a newly designed section. In this way, they obtained lighter and, at the same time, safer frameworks. Frameworks are manufactured using the innovative 'Cobapress' process. Cobapress joins the advantages of fusion and the benefits of forging under press by compressing the aluminium alloy even further, thus removing any residual porosity. All this determines the component lightening to the advantage of its mechanical properties.

In addition, thanks to the use of seam welding processes, the welding is very precise, the components are not deformed and the filling of the gaps is excellent.
Aluminium also plays the main role in the hybrid-type front brake discs with aluminium bell and cast iron ring gear. This patented technology developed by SHW guarantees up to 2 kg of weight reduction per disc in addition to better braking. Furthermore, the sophisticated surface finishing technology by brushing increases grip and pedal feeling whereas the innovative release system between disc and bell guarantees a more comfortable and safer braking. The difference in the thermal expansion coefficients of cast iron and aluminium is compensated by specific steel radial pins that accurately transmit the braking action.

SMC (Sheet Moulding Compound)
Using SMC (Sheet Moulding Compound), a low-density and high resistance composite material, for the body has allowed a 20% weight reduction in comparison with the traditional sheet steel. The Alfa Romeo 4C is the first standard production car to achieve such a high percentage of low-density SMC: with a weight of 1.5 g/cm³ this material is decidedly lighter than steel (~7.8 g/cm³) and aluminium (~2.7 g/cm³), besides being more malleable. This feature has allowed for the styling and design freedom that were necessary to create a true, instantly recognisable Alfa Romeo. Moreover SMC is a stable material which, unlike aluminium, does not strain in the event of minor impacts, has high resistance to chemicals and atmospheric agents, and also disperses noise very well to the advantage of acoustic comfort.

Finally, low-density SMC guarantees a good functional integration of the parts; this in turn entails a reduction in the number of components and operations, and requires shorter assembly times, thus lowering production costs.
PUR-RIM (injected polyurethane)
The PUR-RIM (injected polyurethane) was chosen for bumpers and wings for the same reasons described above. It is a lightweight material (it weighs 20% less than steel) suitable for creating very complex design elements, such as the 4C wing, and for keeping an ideal cost/production volume ratio.
Windows
In the search for the lowest possible weight, no material was ignored, not even glass. In the case of glass, the lightening was obtained by adopting a real silhouette-thinning approach: all the window glasses are on average around 10% thinner than those normally fitted on cars; this allows for an average weight reduction of 15%. The windscreen in particular is only 4 mm thick. This is an extraordinary result especially in consideration of the fact that this particularly aerodynamic shape is difficult to obtain on such thin glass.

 

Engine

• Direct-injection 240HP 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.
'Scavenging' technology
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.
Turbocharger
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.
After-Run Pump
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.
Gearbox

• 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.

Performance

• 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.
Mechanics

• 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.
Sports suspension
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.

Braking system
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.

Steering
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.

 

Interior
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.

Architecture

• 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.
Aerodynamics

• 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.

 

Alfa Romeo 4C Sets Record at Nurburgring

Alfa Romeo released a video of its new 4C sport car setting a record laptime at the Nürburgring circuit. Driven by the expert driver and journalist Horst von Saurma, the Alfa Romeo 4C completed one lap of the Nordschleife section in just 8'04'', a record for cars under 250 HP.

This time beats a slew of more powerful cars. Take a look at how the Alfa Romeo 4C stacks up against the competition:

8:04 - Alfa Romeo 4C, 240 PS
8:05 - Porsche Cayman S, 325 PS (sport auto 06/13)
8:05 - BMW M3, 420 PS (sport auto 12/07)
8:05 - BMW M5, (5th Gen)560 PS (sport auto 09/12)
8:05 - Mercedes CLK 63 AMG Black Series, 507 PS(sport auto 03/08)
8:05 - Ferrari 575M Maranello F1, 580 PS(sport auto 12/02)
8:05 - Porsche 997 Carrera S, (WHEELS 06/04)
8:05 - Porsche 997 Carrera S, 355PS(sport auto 05/05),
8:06 - Porsche Cayman R, 330 PS(sport auto 10/10)
8:09 - Honda NSX-R, 320 PS(sport auto 08/02)
8:10 - Chrysler Viper GTS, 411 PS(sport auto 10/97)
8:10 - Porsche Cayman R, 330 PS(sport auto 10/10)
8:10 - Porsche Boxster S, 310 PS
8:11 - Porsche Cayman S, 295 PS(sport auto 07/05)
8:12 - Porsche 993 Turbo (sport auto 03/97)
8:41 - Lotus Elise SC, 220 PS (AutoBild sportscars 08/08)