2005 Magna Steyr MILA Concept
|
Price |
-- |
Production |
-- | ||
|
Engine |
1.6 liter inline-4 |
Weight |
approx 1874 lbs | ||
|
Aspiration |
turbocharger |
Torque |
140 lb-ft @ 4000 rpm | ||
|
HP |
150 hp @ 6000 rpm |
HP/Weight |
12.5 lbs per hp | ||
|
HP/Liter |
93.8 hp per liter |
1/4 mile |
-- | ||
|
0-62 mph |
6.9 seconds |
Top Speed |
over 124 mph |
(from Magna Steyr)
The MILA Concept version showcased at the IAA is a single-seater
sports car with a mid-engine and rear-wheel drive. Magna Steyr is
not only using the MILA Concept as further proof of its "complete
vehicle competence" that has gone into so many successful production
vehicles, but also to demonstrate its engineers' creativity and
their skill in meeting innovative and technically demanding
challenges.
The concept vehicle's technical highlights include
Eco-friendly CNG (Compressed Natural Gas) powered engine combined with extremely sporty performance
Consistent lightweight construction
Modular design principle enabling different models to be built (single or two-seater, normal or high-power engine, etc.) without much extra effort, as the components and modules have been developed in advance and optimized in terms of cost and weight
Advanced vehicle safety thanks to the monocoque body's high stiffness.
Magna Steyr is confident
that natural gas will gain more and more ground as an alternative
fuel for road vehicles in the future. A study by the German
Automotive Industry Association published in Frankfurt recently came
to the conclusion that in Germany alone some two million natural gas
vehicles will be licensed in the next 15 years. According to the
study, natural gas vehicles could reach a market share of around 4%
by the year 2020.
CNG is available today in sufficient quantities and has many
advantages over automotive gas (i.e. butane or propane). It
provides, for example, higher antiknock quality and only has to be
cleaned, filtered and dried before use, while automotive gas can
only be obtained using complex refinery processes.
Engines reach a higher degree of efficiency with CNG than with
gasoline (up to 32% compared with 25%). What?s more, under the
stringent Californian emission legislation of 2004, a CNG vehicle
belongs to the eco-friendly AT-PZEV category (Advanced Technology
Partial Zero Emission Vehicle).
Irrespective of the MILA Concept, which is an initial important step
in the right direction, Magna Steyr will focus more on the
development of natural gas engines in the future. Here the company?s
engineers will benefit from Magna Steyr?s long-standing experience
in the field and specific technical expertise in the development and
manufacture of fuel tanks and fuelling systems.
The engine used in the MILA Concept, installed in the rear as a
mid-engine, is a standard 1.6-litre four-cylinder model that was
converted to monovalent CNG operation, which means it will run on
natural gas alone. Apart from installing CNG-specific injection
valves, no other modifications had to be carried on the original
gasoline engine. Its maximum power of 110 kW (150 hp) gives the
concept vehicle a top speed of over 200 km/h and acceleration from 0
to 100 km/h in 6.9 seconds.
The fuel tank is a composite CNG safety pressure cylinder (aluminium
liner wrapped with carbon fibre) and located safely behind the
driver's seat should there be a crash. In the version on show at the
IAA, the tank volume is 76 litres, which gives the vehicle a driving
range of around 200 km at any one time.
The attractive, class-A stampings made of glass-reinforced polyester
designed by the Magna Steyr Styling Department conceal an
ultramodern, extra light and extra stiff space frame in 6000 series
aluminium alloy - weighing only around 100 kg. The entire chassis is
a lightweight construction made of high-strength steel. Given the
consistent lightweight design throughout, the complete vehicle
weighs in at around 850 kg.
The current version of the MILA Concept experimental vehicle has a
closed body with a Perspex bubble over the driver. If the vehicle
goes into volume production at a later date, a three-part bubble
made of laminated glass would be conceivable instead of the
Plexiglas one.
Since a basic principle in Magna Steyr's corporate strategy is not
to market any vehicles of its own, the MILA Concept does not involve
any plans or proposals to build a vehicle under the Magna Steyr
brand. In fact, the company is seeking an OEM as a partner in the
promising MILA Concept project with a view to jointly turning it
into a production mature and marketable vehicle. Magna Steyr
estimates the time required for production development to be about
23 months.
Studies have revealed that there are definitely market opportunities
for a vehicle of the MILA Concept type. Potential customers range
from
Individualists, techies and lifestylers with a penchant for innovative, original, pioneering vehicles
Drivers who are looking for a vehicle using eco-friendly alternative fuels that they can drive in built-up areas, even when environmental regulations close city centres to private traffic (e.g. ban on driving because of particulate emissions,
Fresh-air aficionados who don't really want to miss the feeling of riding a motorcycle, but still prefer to drive on four wheels (perhaps only because they don't have a motorcycle licence) with a roof over their heads if need be
Potential buyers who already have one or two conventional vehicles in the family and are therefore interested in something "completely different" as a second or third car - a vehicle with a hint of Formula One fascination, a funky fun car with a sporty look, power and performance but at an affordable price.
Presenting the MILA
Concept at IAA 2005 is primarily intended as living proof of the
comprehensive range of services provided by Magna Steyr's
development engineers. It is also aimed at gauging public opinion:
how will the experts and IAA visitors react to a vehicle of this
type?
The custom-built show car on display at the IAA naturally works and
can be driven at any time. After the IAA, Magna Steyr is also
considering giving the media and OEM representatives the opportunity
to test drive the vehicle.
It only took six months to completely develop and build the vehicle
on show. All the development steps up to the complete concept
vehicle were modelled virtually - including crash performance,
fatigue strength, ergonomics, thermal analysis, aerodynamics, etc.