All-carbon fiber monocoque for the new Lamborghini Aventador LP700-4

All-carbon fiber monocoque for the new Lamborghini Aventador LP700-4

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All-carbon fiber monocoque for the new Lamborghini Aventador LP700-4

Posted: 11 Feb 2011 06:45 AM PST

Lamborghini Aventador LP700-4 monocoque

Lamborghini’s Geneva motor show launch of its Murciélago replacement promises an extraordinary new technology-driven super sports car. One significant feature will be the extensive use of carbon fiber-reinforced polymer (CFRP) technology throughout the car, and in particular, in the entirely carbon fiber composite monocoque.

  • Monocoque forms a single shell in carbon fiber
  • Built entirely in-house by Lamborghini with patented process

The cell of the future Lamborghini flagship super sports car is made entirely from carbon fiber and has been designed as a monocoque structure. The load-bearing structure of the vehicle is engineered as a “single shell” that functions physically as one component, thus taking full advantage of the extreme rigidity of CFRP. Formula 1 race cars have been built using CFRP monocoques for many years – and have proven their crash worthiness time and again. The same applies to road-going sports cars featuring monocoque technology – the carbon fiber occupant cell functions like an extremely safe roll cage.

Construction offer many advantages

Of course, the term “single shell” applies only in the descriptive sense – the new Lamborghini monocoque is made from a series of individual parts with specific functions, such as stiffening elements made from Braiding technology, that is one of the best technology to manage energy adsorption in case of crash. After the curing process, however, this structure functions as a single component – including the base section known as the tub and the complete roof.

The full monocoque solution offers advantages which other processes, like a tub where a metal roof structure is attached in a conventional manner, cannot realize. That’s why Lamborghini made the no compromise choice of the full monocoque, which weighs only 147.5 kilograms (324.5 lbs).

Extremely rigid construction

Superior passive safety is only one benefit of the extreme rigidity of a full carbon fiber monocoque – very high torsional rigidity is another. The monocoque is connected at the front and rear with equally rigid aluminum sub-frames, on which the suspension, engine and transmission are mounted.

The entire body-in-white of the future V12 model weighs only 229.5 kilograms (505 lbs) and boasts phenomenal torsional rigidity of 35,000 Newton meters per degree of twist. This guarantees a superb feeling of solidity, but, more importantly, extremely exact wheel control with excellent steering precision and sensitive feedback. For the dedicated driver, both are essential for truly enticing driving pleasure. The new Lamborghini flagship responds to the most minute steering input with the stunning precision of a perfectly balanced race car.

Lamborghini Aventador LP700-4

Depending on the form, function and requirements of the individual elements, the Lamborghini development team selected from three main CFRP manufacturing methods within its technology tool kit. They differ not only in their production processes, but also in the type of carbon fiber and its weave and, most importantly, in the chemical composition of the synthetic resin used.

Resin Transfer Moulding (RTM): In this process the carbon fiber mats are preformed and impregnated with an exact amount of resin. Afterwards, they are cured under heat while the part is in the mold. Lamborghini has achieved a major breakthrough by further developmening this method. Using the patented “RTM-Lambo” process, the final mold is no longer a heavy, complex metal piece, but is made instead from lightweight carbon-fiber parts, thus making the manufacturing process faster, more flexible and more efficient.

An additional benefit of the RTM-Lambo process is the low injection pressure that doesn’t require expensive equipment.

Prepreg – The carbon fiber mats used in this method, commonly known as prepreg, are pre-injected by the supplier with a thermosetting liquid resin and must be stored at a low temperature. The mats are then laminated in molds and cured under heat and pressure in an autoclave. Prepreg components are complex to make, but have an extremely high-quality surface finish (Class-A surface quality) and are therefore the preferred option for use in visible locations.

Braiding – These components are manufactured by using RTM technology. This carbon fiber weave technology is derived from the textile industry and used to make tubular components for special applications such as structural roof pillars and rocker panels. The woven components are made by diagonally interweaving the fiber in several layers.

The monocoque of the new V12 super sports car is constructed using these technologies applied in a series of special processes. One significant advancement Lamborghini realized is the ability to use already-assembled monocoque elements as the mold for the next step in the process. This makes for a considerable simplification of the manufacturing process compared with conventional methods.

Epoxy foam components are also used within the monocoque. They are placed in strategic points to increase the stiffness of the monocoque by working as spacers between the composite layers while also dampening noise and vibration. In addition, aluminum inserts are laminated into the front and rear surfaces to facilitate connection with the aluminum front and rear sub-frame elements.

Because of the complexity of the materials and process outlined above, Lamborghini decided to produce its new monocoque completely in-house, managing one strategic step in the production process.

Quality control is an absolutely crucial factor – every single monocoque is measured to exacting tolerances of only 0.1 millimeters, facilitating the extreme precision of the overall vehicle. Quality control starts with the purchase of the carbon fiber parts. Every delivery of carbon fiber is certified and the material is checked regularly for compliance with quality standards. Lamborghini worked together with its suppliers to develop a world-exclusive fiber and resin system for its RTM technology. Ultimately, these materials and processes constitute an important part of Lamborghini’s worldwide leading expertise in the field.

Carbon composite materials – A key technology for tomorrow’s high-performance automotive engineering

These materials made from CFRP combine the lowest possible weight with excellent material characteristics – they are very light, extremely rigid and exceptionally precise.

Furthermore, CFRP materials can also be formed into highly complex components with integrated functions. This reduces the number of individual parts when compared to traditional metal construction – thus enabling further weight reduction. Lighter cars have lower fuel consumption and fewer CO2 emissions. Most significantly, however, it improves the power-to-weight ratio – the deciding factor in the overall feel and performance of a sports car. A super sports car built using CFRP accelerates faster, has superior handling and better braking.

- Lamborghini

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First phase of ‘SEAT in the SUN’ project successfully concluded

Posted: 11 Feb 2011 06:23 AM PST

SEAT in the SUN Project

SEAT to have largest rooftop photovoltaic facility in European car industry

Within the general framework of SEAT’s commitment to the environment, the company has brought to a successful conclusion the first phase of its ‘SEAT in the SUN’ project with the setting up of two photovoltaic plants, together generating 6 million kWh of clean electricity. During the first full year of operation, the system will generate much more energy than was consumed by the festive Christmas lighting in the cities of Madrid and Barcelona together.

  • Two plants equipped with more than 20,000 photovoltaic panels, producing 4 mW of power
  • Annual reduction of 2,800 tonnes of CO2
  • Clean electric power to double within the year

The more than 20,000 solar panels, covering a total surface area of 135,000 square metres, installed on workshop roofs and the temporary vehicle holding areas, will together reach a nominal potential production of 4 mW during the initial phase.

This project will enable the SEAT plant at Martorell to make a major contribution to protection of the environment while also reducing CO2 emissions by 2,800 tonnes per year –equivalent to the beneficial effect of more than one thousand hectares of forest.

SEAT in the SUN Project

The ‘SEAT in the SUN’ project has been developed jointly with Gestamp Solar with a view to the large-scale generation of clean electricity locally for on-site consumption (the principle of distributed generation). Additionally, the facilities set up in the vehicle holding areas have a two-fold purpose – they will generate renewable energy while protecting manufactured cars from the vagaries of the weather. The implementation of this first phase has entailed an investment of 17 million euros.

Throughout 2011 and 2012 new phases will be started up until what will eventually be the European car industry’s largest roof-installed photovoltaic facility is finalized.

‘SEAT in the SUN’ aims to create a total number of 6 photovoltaic plants covering an overall surface area of 320,000 square metres with installed power of 10.6 mW. The company will have the capacity to generate more than 13 million kWh per year of clean electricity –the equivalent of the electricity consumption of 3,000 Spanish households – and will also produce a reduction of 6,200 tonnes in CO2 emissions, equal to almost 15% of the contribution made by the Montseny Nature Reserve on the outskirts of Barcelona.

In line with SEAT’s policy of sustainability, the company was leader in Spain in 2010 as regards registration of vehicles with CO2 emissions below130 gr/km, with a 42% increase over results of the previous trading year.


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