But anyway, according to Lotus, the all-new rang topping Eagle sports car will be fully unveiled at
Press Release:
First Glimpse of Project Eagle
Group Lotus plc unveiled the first glimpse of the eagerly awaited Project Eagle at the 78th annual Geneva International Motor Show. This exhibition showcases part of the advanced technology being utilised for Project Eagle and the latest development of the innovative Lotus Versatile Vehicle Architecture (VVA). This first glimpse is the front module of the chassis, which is shown prior to the full unveiling of Project Eagle at the British Motor Show in July 2008.
Project Eagle is the code name for the new higher specification addition to the Lotus product range entering the market above the Elise, Exige and Europa. Going into production at the beginning of next year, Project Eagle draws heavily on the proven technology used in the iconic Lotus Elise family of vehicles as well as the Versatile Vehicle Architecture (VVA) shown as the APX (Aluminium Performance Crossover) Concept Vehicle. Project Eagle will be an all new fantastic Lotus sports car, which illustrates Lotus Engineering’s ability to create innovative and exciting high performance niche car products.
Mike Kimberley CEO of Group Lotus plc said: “I am delighted with the exceptional “fast-track” progress of Project Eagle -the project is hitting key gateway, timing and technical objectives. The project utilises our core competencies in aluminium, and composite body engineering, jointing techniques, and vehicle systems integration. Lotus Engineering is a world leader in niche vehicle design, manufacture and global sales and Project Eagle is a prime example of this technological competence, which will build upon this reputation”.
Mike Kimberley added, “This is a very exciting period for us at Lotus and the whole company is enjoying the challenge of delivering such an exceptional new Lotus car. By showing this front module at
Versatile Vehicle Architecture
The innovative Lotus Engineering VVA technology offers a fast-to-market, cost-effective approach to differentiated niche products by spreading the development, investment and the bill of materials burden across a range of vehicle variants, without the compromise that stems from conventional ‘platform sharing'. The philosophy is based on the commonality and versatility of key elements of the vehicle structure and body systems across a ‘family’ of niche vehicle variants that meet all world homologation and safety requirements.
Richard Rackham, Vehicle Architect of Lotus Engineering, said “Producing a bespoke low-volume platform using normal methods is uneconomical, whilst sharing a mainstream platform normally results in compromises in performance and design. Traditionally car manufacturers seeking to gain competitive advantage through exciting niche vehicles have to either design a new platform or share one already available. The great advantage of this VVA technology is that it can be used by one car manufacturer looking to develop a range of niche products, or by a group of car manufacturers looking to share investment, but still retain a high degree of end product separation.”
The Project Eagle chassis is an evolution of the Versatile Vehicle Architecture (VVA) from the Lotus APX concept vehicle previously showcased at
The Low Volume VVA architecture has been designed so that it can be stretched in width, length and height. The strength and stiffness of the low volume VVA chassis can be modified cost effectively by varying the wall thickness of the extrusions, without altering the exterior dimensions. Combining the ability to lengthen or shorten extrusions with the option to tailor the chassis stiffness, vastly increases the number of vehicles that could be developed from this vehicle architecture. Front and mid engine installations have been considered, as well as hybrid and Electric Vehicle (EV) applications.
Project Eagle employs a composite roof as a stressed structural member to give an exceptional vehicle stiffness of 26,000 Nm per degree. To deliver this high performance structure, bonded and riveted high grade aluminium extrusions and simple and elegant folded sheet elements are used in the lower structure, building upon award winning research projects in this field. Lotus pioneered the aerospace technology of bonded aluminium extrusions for use in road vehicles and has successfully developed high performance cars for global engineering clients using this approach.
Project Eagle Front Module
The innovative VVA architecture for Project Eagle consists of three distinct parts, with the centre occupant section being the largest. Bolted to this centre section are the rear sub frame to which the engine and rear suspension are attached and the front module that incorporates the bumper beam and side members that progressively absorb crash energy. Practicality has been a major consideration with in-built serviceability factored into the design. Various systems attach to the front module including the suspension, cooling pack, HVAC and body. The aluminium front module on its own measures 938 mm long, 864 mm wide and 387 mm tall and weighs in at a featherweight 25 kg, again ‘ecologically’ biased.
Project Eagle suspension wishbones are forged from aluminium to reduce the unsprung mass. These are similar in weight to the steel items found on the much smaller Elise, Exige and Europa vehicle, but have a far higher vehicle weight capability. They attach to the front module via bespoke lightweight bushes. All Lotus cars have to be fun to drive and deliver a sensational, class leading driving experience. Project Eagle will be using Bilstein dampers and Eibach springs with unique dual path top mounts for optimised vehicle refinement. The high performance bespoke Lotus AP Racing 4 pot callipers work in tandem with ventilated cross-drilled 350mm diameter brake discs to ensure phenomenal stopping power. Hydraulically assisted power steering will be employed with a TRW steering rack.
Project Eagle
The development of Project Eagle is advancing rapidly, with engineering prototypes already conducting testing in Northern Europe and at Lotus’ headquarters at
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