THE NEW LT-1
The Heart of a New
Generation
The Corvette's new LT1
engine is the most radical change to the Chevy small block in its long history.
The new 6.2 liter motor will pump out an estimated 450 horsepower and 450
pound-feet of torque. This will translate according to the GM marketing people
an estimated 0-60 mile per hour time of less than 4.0 seconds when installed in
the C7. The LT1 will have a 20 hp and 26 lb-ft advantage over the old LS3 that
it is replacing. The torque output of this new marvel will match the output of
427 ci LS7 that powers the ZO6. This will give the C7 some serious tire
shredding potential.
Chevy really strived to be politically correct with the LT1. The GM reps told us that one of the main concerns was with fuel economy. The LT1 will accomplish the good fuel consumption number via the use of computer controlled cylinder de-activation technology. The revised de-activation system will allow fuel consumption numbers to achieve 26mpg on the highway. This is a very conservative estimate as the current Vette can easily achieve these numbers.
The following is the official GM
press release that details the new LT1
GM DETROIT
– When the all-new 2014 Chevrolet Corvette arrives late next year, it will be
powered by a technologically advanced, racing-proven 6.2L V-8 delivering an estimated
450 horsepower and helping produce 0-60 times in less than four seconds.
The new Corvette LT1 engine, the first of the
Gen 5 family of Small Block engines, combines several advanced technologies,
including direct injection, Active Fuel Management and continuously variable
valve timing to support an advanced combustion system.
"Our objective for the development of the
all-new LT1 was to raise the bar for performance car engines," said Mary
Barra, senior vice president, global product development. "We feel that we
have achieved that by delivering a true technological masterpiece that
seamlessly integrates a suite of advanced technologies that can only be found
on a handful of engines in the world.
"What makes this engine truly special is
the advanced combustion system that extracts the full potential of these
technologies. The art and science behind that combustion system make the
Corvette LT1 one of the most advanced V-8 engines in the world," said
Barra.
Output, performance, and fuel economy numbers
will not be finalized until early next year, but the new LT1 engine is expected
to deliver:
• The most powerful standard Corvette ever, with
preliminary output of 450 horsepower (335 kW) and 450 lb.-ft. of torque (610
Nm)
• The quickest standard Corvette ever, with
estimated 0-60 performance of less than four seconds
• The most fuel-efficient Corvette ever,
exceeding the 2013 EPA-estimated 26 miles per gallon on the highway.
"The Holy Grail for developing a
performance car is delivering greater performance and more power with greater
fuel economy and that's what we've achieved," said Tadge Juechter,
Corvette chief engineer. "By leveraging technology, we are able to get
more out of every drop of gasoline and because of that we expect the new Corvette
will be the most fuel-efficient 450 horsepower car on the market."
Advanced combustion system optimized with 6
million hours of analysis
"The Corvette LT1 represents the most
significant redesign in the Small Block's nearly 60-year history – building on
its legacy to make one of the world's best engines even better," said Sam
Winegarden, vice president, Global Power train Engineering. "More than just
great horsepower, the LT1 has been optimized to produce a broader power band.
Below 4,000 rpm, the torque of the Corvette LT1 is comparable to that of the
legendary, 7.0L LS7 out of the current Corvette Z06. The LT1 is a sweetheart of
a power plant and drivers will feel its tremendous torque and power at every
notch on the tachometer."
Increased power and efficiency were made
possible by an unprecedented level of analysis, including computational fluid
dynamics, to optimize the combustion system, the direct injection fuel system,
active fuel management and variable valve timing systems that support it. More
than 10 million hours of computational analysis were conducted on the engine
program, including 6 million hours (CPU time) dedicated to the advanced
combustion system.
Direct injection is all-new to the engine
architecture and is a primary contributor to its greater combustion efficiency
by ensuring a more complete burn of the fuel in the air-fuel mixture. This is
achieved by precisely controlling the mixture motion and fuel injection spray
pattern. Direct injection also keeps the combustion chamber cooler, which allows
for a higher compression ratio. Emissions are also reduced, particularly
cold-start hydrocarbon emissions, which are cut by about 25 percent.
Active Fuel Management (AFM) – a first-ever
application on Corvette – helps save fuel by imperceptibly shutting down half
of the engine's cylinders in light-load driving.
Continuously variable valve timing, which GM
pioneered for overhead-valve engines, is refined to support the LT1 AFM and
direct injection systems to further optimize performance, efficiency and
emissions.
These technologies support the all-new, advanced
combustion system, which incorporates a new cylinder-head design and a new,
sculpted piston design that is an integral contributor to the high-compression,
mixture motion parameters enabled by direct injection.
The LT1 head features smaller combustion
chambers designed to complement the volume of the unique topography of the
pistons' heads. The smaller chamber size and sculpted pistons produce an 11.5:1
compression ratio, while the head features large, straight and rectangular
intake ports with a slight twist to enhance mixture motion. This is
complemented by a reversal of the intake and exhaust valve positions, as
compared to the previous engine design. Also, the spark plug angle and depth have
been revised to protrude farther into the chamber, placing the electrode closer
to the center of the combustion to support optimal combustion.
The pistons feature unique sculpted topography
that was optimized via extensive analysis to precisely direct the fuel spray
for a more complete combustion. The contours of the piston heads are machined
to ensure dimensional accuracy – essential for precise control of mixture
motion and the compression ratio.
Race-proven legacy,
state-of-the-art performance
The first Small Block V-8 debuted in the
Corvette in 1955. It displaced 4.3L (265 cubic inches) and was rated at 195
horsepower, drawing air and fuel through a four-barrel carburetor. Five years
later, V-8 power helped Corvette secure its first victory at the 24 Hours of
In 2012, the Small Block-powered Corvette Racing
C6.R beat Ferrari, BMW and Porsche to sweep the drivers', team, and
manufacturer championships in production-based American
"The engine requirements for a production
car and a race car are remarkably similar," said Jordan Lee, Small Block
chief engineer and program manager. "In both cases, you want an engine
that is powerful and efficient, compact and lightweight, and durable. That
combination is what made the original Small Block so successful. Today, the
introduction of state-of-the-art technologies and engineering makes one of the
best performance car engines in the world even better."
As an example, the new LT1 engine is 40 pounds
lighter than a competitor's twin-turbo 4.4L, DOHC V-8 with similar output. That
weight savings not only improves the Corvette's power-to-weight ratio, but also
contributes to a near-perfect 50/50 weight balance for enhanced steering
response and handling.
The new LT1 is also four inches shorter in
overall height than the competitive DOHC V-8. That also improves handling by
lowering the center of gravity while enabling a low hood line – contributing to
the Corvette's iconic profile, as well as ensuring exceptional driver
visibility.
The new LT1 is the third engine in the
Corvette's history to be so-named, with previous versions introduced in 1970
(Gen 1) and 1992 (Gen 2). All iterations of the LT1 – and all Small Block
engines – have shared a compact design philosophy that fosters greater
packaging flexibility in sleek vehicles such as the Corvette.
"The power and efficiency of the Small
Block V-8 are hallmarks of Corvette performance," said Lee. "But, the
compact size and great power-to-weight are just as important for the overall
driving experience. The all-new LT1 will play a huge role in making the all-new
Corvette a world-class sports car, in terms of technology, performance, and
refinement."
Engine features and
highlights
All-aluminum block and oil pan: The Gen 5 block
was developed with math-based tools and data acquired in GM's racing programs,
providing a light, rigid foundation for an impressively smooth engine. Its
deep-skirt design helps maximize strength and minimize vibration. As with the
Gen 3 and Gen 4 Small Blocks, the bulkheads accommodate six-bolt, cross-bolted
main-bearing caps that limit crank flex and stiffen the engine's structure. A
structural aluminum oil pan further stiffens the power train.
The block features nodular iron main bearing
caps, which represent a significant upgrade over more conventional powdered
metal bearing caps. They are stronger and can better absorb vibrations and
other harmonics to help produce smoother, quieter performance.
Compared to the Gen 4 engine, the Gen 5's
cylinder block casting is all-new, but based on the same basic architecture. It
was refined and modified to accommodate the mounting of the engine-driven
direct injection high-pressure fuel pump. It also incorporates new engine mount
attachments, new knock sensor locations, improved sealing and oil-spray piston
cooling.
Advanced oiling system, with available dry-sump
system: The LT1 oiling system – including oil-spray piston cooling – was also
optimized for improved performance. It is driven by a new,
variable-displacement oil pump that enables more efficient oil delivery, per
the engine's operating conditions. Its dual-pressure control enables operation
at a very efficient oil pressure at lower rpm coordinated with AFM and delivers
higher pressure at higher engine speeds to provide a more robust lube system
for aggressive engine operation.
Standard oil-spray piston cooling sprays the
underside of each piston and the surrounding cylinder wall with an extra layer
of cooling oil, via small jets located at the bottom of the cylinders. For
optimal efficiency, the oil jets are used only when they are needed the most:
at start-up, giving the cylinders extra lubrication that reduces noise, and at
higher engine speeds, when the engine load demands, for extra cooling and
greater durability.
An available dry-sump oiling system promotes
exceptional lubrication system performance during aggressive driving maneuvers
and high cornering loads. It includes two stages: a pressure stage and a
scavenge stage. The pressure stage includes the new, dual-pressure-control and
variable-displacement vane pump.
Dexos semi-synthetic motor oil, with a 5W30
specification, helps reduce friction to further enhance the LT1's efficiency.
New, tri-lobe camshaft: Compared to the Gen 4
Small Block, the camshaft remains in the same position relative to the
crankshaft and is used with a new rear cam bearing, but it features an all-new
"tri-lobe" designed lobe which exclusively drives the engine-mounted
direct injection high-pressure fuel pump, which powers the direct-injection
combustion system. The cam's specifications include 14mm/13.3mm
(0.551/0.524-inch) intake/exhaust lift, 200/207-crank angle degrees
intake/exhaust duration at 0.050-inch tappet lift and a 116.5-degree cam angle
lobe separation.
New, cam-driven fuel pump: The direct injection
system features a very-high-pressure fuel pump, which delivers up to 15Mpa (150
bar). The high-pressure, engine-driven fuel pump is fed by a conventional
fuel-tank-mounted pump. The direct injection pump is mounted in the
"valley" between cylinder heads – beneath the intake manifold – and
is driven by the camshaft at the rear of the engine. This location ensures any
noise generated by the pump is muffled by the intake manifold and other
insulation in the valley.
PCV-integrated rocker covers: One of the most
distinctive features of the new engine is its domed rocker covers, which house
the, patent-pending, integrated positive crankcase ventilation (PCV) system
that enhances oil economy and oil life, while reducing oil consumption and
contributing to low emissions. The rocker covers also hold the direct-mount
ignition coils for the coil-near-plug ignition system. Between the individual
coil packs, the domed sections of the covers contain baffles that separate oil
and air from the crankcase gases – about three times the oil/air separation
capability of previous engines.
Intake manifold and throttle body assembly: The
LT1's intake manifold features a "runners in a box" design, wherein
individual runners inside the manifold feed a plenum box that allows for
excellent, high-efficiency airflow packaged beneath the car's low hood line.
Acoustic foam is sandwiched between the outside
top of the intake manifold and an additional acoustic shell to reduce radiated
engine noise, as well as fuel pump noise.
The manifold is paired with an electronically
controlled throttle, featuring an 87mm bore diameter and a
"contactless" throttle position sensor design that is more durable
and enables greater control.
Four-into-one exhaust manifolds: The LT-1 uses a
cast version of the "four-into-one" short-header exhaust manifold
design used on the Gen 4 LS7 engine. The cast header passages enable consistent
exhaust flow into the "wide mouth" collector at the converter.
Cooling system, humidity sensor and more:
Additional features and technologies of the Gen 5 Small Block include:
• A revised cooling system with an offset water
pump and thermostat for more efficient performance
• Air induction humidity sensor ensures optimal
combustion efficiency, regardless of the surrounding air's humidity
• 58X ignition system with individual ignition
coil modules and iridium-tip spark plugs
• All-new "E92" engine controller.