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For many years the 454 (7.4-liter) V8 was the top choice from GM, while Ford had the mighty 460 (7.5-liter) V8. In 1999, Ford put the 460, out to pasture when the 6.8-liter V10 was introduced in the new Super Duty pickups. But the big-block GM V8 soldiered on.For 1970, the Big-Block was expanded again, to 454 cu in (7.4 L), with a bore x stroke of 4+1⁄4 in × 4 in (108.0 mm × 101.6 mm).How Much Horsepower Does a 454 Have? Surprisingly, the 454 big-block V8 engine laid down 330 horsepower and 475 pound-feet of torque. Its truck-based 454 engine was tuned for torque with a surprise of reaching nearly 500 lb. feet without being loud.
Contents
What size is a 454 engine in liters?
For 1970, the Big-Block was expanded again, to 454 cu in (7.4 L), with a bore x stroke of 4+1⁄4 in × 4 in (108.0 mm × 101.6 mm).
How much horsepower does a 454 have?
How Much Horsepower Does a 454 Have? Surprisingly, the 454 big-block V8 engine laid down 330 horsepower and 475 pound-feet of torque. Its truck-based 454 engine was tuned for torque with a surprise of reaching nearly 500 lb. feet without being loud.
Is the Chevy 7.4 a good engine?
The 1996-2000 L29 7.4L big blocks are great engines. Much more dependable and durable than the 6.5L diesel of that era. L29’s had multiport sequential fuel injection, all of the latest sealing technology to prevent oil leaks and the “Vortec” style heads flowed very well.
Is a 454 a good motor?
The 454 big block is a very good engine to go with if you are looking for something that can output a lot of power, and fit in a lot of classic cars and trucks. This is a classic engine from Chevrolet and stock it makes great power from the factory, if you upgrade it you can get even more out of it.
What Litre is a 383?
5.3L 383 Stroker Engine Build – Displacement & Replacement.
How many liters is a 632 big-block?
GM’s 1,000 hp 632 cubic-inch crate engine is its largest and most powerful ever. This monstrous motor clocks in at over 10.3 liters of displacement and makes more than 1,000 horsepower on pump gas without a turbo or nitrous.
What year is the best 454?
The 1970 versions of the Chevrolet 454 were the most powerful, with the LS5 putting out around 360 horsepower and the LS6 delivering about 450 horses.
What cars had a 454 big block?
- GMC Sprint (1971–1972)
- Chevrolet Corvette (1970–1974)
- Chevrolet Chevelle (1970–1975)
- Chevrolet Caprice (1970–1976)
- Chevrolet El Camino (1970–1975)
- Chevy Trucks & Other Vehicles with 454 Engine.
How many miles is a 454 good for?
454 will run 200k with the right oil.
What size engine is a 8.1 liter?
In the year 2001, the 8.1-liter Vortec 8100 V8 engine was introduced. Its 496 cubic-inch displacement overshadowed all of the previous production big-block engines. Though the Vortec 8100 was a success and a fan favorite, the engine was eventually discontinued in December 2009, according to Motor Trend.
How much does a 454 engine cost?
As crate engines go, GM Performance Parts’ 454 H.O. crate engine is not only a bargain at its street price of around $4,600, its forged crank, pistons, and rods also make it capable of handling nearly as much power as you’re capable of throwing at it. We proved that in our Aug.
What is a 8.1 Chevy engine?
Building on the same basic architecture as the 454 cubic inch motor it would eventually out-live, the Vortec 8.1 (also known as the 8100) represented the final link to Chevrolet’s roaring ’60s muscle car motors, and claimed the title of the largest passenger vehicle engine to ever wear the Bowtie badge.
What year did Chevy stop making the 454?
The 454 SS was built until 1993. After a year’s hiatus in 1995, the 454 big block Chevy would return in its third, and final, iteration the following year.
Is a 454 a big block or small block?
Chevy production big-blocks range from 348-ci to 454-ci in passenger cars, but have also been offered in other displacements for different applications.
What size of engine is a 7.2 L?
Liters | Cubic Inches | Liters |
---|---|---|
2.1 | 128 | 7 |
2.2 | 135 | 7 |
2.3 | 140 | 7 |
2.4 | 146 | 7.2 |
How do you convert liters to horsepower?
The litres atmosphere per second unit number 7.26 L atm/s converts to 1 hp, one horsepower – Metric.
What size motor is a 1500 cm?
CID | Liter | C.C. |
---|---|---|
92 | 1.5 | 1500 |
98 | 1.6 | 1606 |
105 | 1.7 | 1721 |
112 | 1.8 | 1836 |
What is a 1998 cc engine?
Engine size is rounded up to the nearest litre; or tenth of a litre, so a car with an engine capacity of 1,998cc is usually badged 2.0-litre, and an engine capacity of 1,392cc is badged 1.4-litre and so on.
Who Killed the Big-Block V8?
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Chevrolet big-block engine – Wikipedia
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Contents
W-series (Mark I)[edit]
Mark II[edit]
Mark III[edit]
Mark IV[edit]
Generation V[edit]
Generation VI[edit]
Generation VII[edit]
Aftermarket[edit]
See also[edit]
Footnotes[edit]
Citations[edit]
Further reading[edit]
Navigation menu
How Much Horsepower Does a 454 Engine Have? –
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What is a 454 Big Block Engine
How Much Horsepower Does a 454 Have
How to Get More Horsepower Out of a 454 V8 Engine
How to Improve a 454 V8 Engine
How Much Horsepower in a 454 Engine
Opinions On the 7.4 / 454 Suburbans and engine | Expedition Portal
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What Makes the 454 7.4L Engine Unique? | It Still Runs
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- Summary of article content: Articles about What Makes the 454 7.4L Engine Unique? | It Still Runs The Chevrolet 454-cubic-inch, or 7.4-liter, V-8 engine was a brawny gas-guzzling powerplant that should have died an ignoble death after the 1973 fuel … …
- Most searched keywords: Whether you are looking for What Makes the 454 7.4L Engine Unique? | It Still Runs The Chevrolet 454-cubic-inch, or 7.4-liter, V-8 engine was a brawny gas-guzzling powerplant that should have died an ignoble death after the 1973 fuel … The Chevrolet 454-cubic-inch, or 7.4-liter, V-8 engine was a brawny gas-guzzling powerplant that should have died an ignoble death after the 1973 fuel crisis. Yet it survived to become a workhorse and father of the 8.1-liter 8100 Vortec V-8. Its uniqueness was in its versatility. In its various configurations, it was …
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Chevrolet big-block engine – Wikipedia
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- Summary of article content: Articles about Chevrolet big-block engine – Wikipedia Chevrolet big-block engine ; 348 cu in (5.7 L) 366 cu in (6.0 L) 396 cu in (6.5 L) 402 cu in (6.6 L) 409 cu in (6.7 L) 427 cu in (7.0 L) 454 cu in (7.4 L) 496 cu … …
- Most searched keywords: Whether you are looking for Chevrolet big-block engine – Wikipedia Chevrolet big-block engine ; 348 cu in (5.7 L) 366 cu in (6.0 L) 396 cu in (6.5 L) 402 cu in (6.6 L) 409 cu in (6.7 L) 427 cu in (7.0 L) 454 cu in (7.4 L) 496 cu …
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Contents
W-series (Mark I)[edit]
Mark II[edit]
Mark III[edit]
Mark IV[edit]
Generation V[edit]
Generation VI[edit]
Generation VII[edit]
Aftermarket[edit]
See also[edit]
Footnotes[edit]
Citations[edit]
Further reading[edit]
Navigation menu
454 cubic inches to litres
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Cubic inches to litres conversion chart near 454 cubic inches
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Top 10 Engines of All Time (#8): Chevrolet 454 – OnAllCylinders
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7.4L LSX 454 Small-Block V-8 Engine | GM Powertrain OEM
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- Most searched keywords: Whether you are looking for 7.4L LSX 454 Small-Block V-8 Engine | GM Powertrain OEM The 7.4L 454 Small-Block V8 Engine from GM Powertrain OEM Sales is lighter and more compact than the big block without sacrificing any of the performance. The 7.4L 454 Small-Block V8 Engine from GM Powertrain OEM Sales is lighter and more compact than the big block without sacrificing any of the performance.GM Powertrain 7.4L LSX 454, GM LSX 454 Engine, lsx engine, 7.4L 454 crate engine, big block race engine, gen-iv, v8 engine, lsx series, oem, original equipment manufacturer engine
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Who Killed the Big-Block V8?
Yesterday it was an exciting day for fans of heavy haulers. Ford, GM and Dodge all broke big news about their heavy-duty pickup trucks, a segment that grows despite a dip in the light-duty pickup sales and recent high gas prices. Diesels make up the meat of that market. And today’s diesels are not only much cleaner than before, they crank out massive amounts of torque, with GM currently taking top honors with the new Duramax cranking out 660 lb.-ft of torque. But after scanning the spec sheets for each truck I realized that for the first time ever—you can’t get a big-block V8 in any domestic pickup.
In the ’60s and ’70s, it was the large displacement V8 that not only powered the quickest muscle cars, like the 426 Hemi ‘Cuda, the 427 Corvette and the Boss 429 and 428 Super Cobra-Jet Mustangs but also the most powerful pickups too. For many years the 454 (7.4-liter) V8 was the top choice from GM, while Ford had the mighty 460 (7.5-liter) V8. In 1999, Ford put the 460, out to pasture when the 6.8-liter V10 was introduced in the new Super Duty pickups. But the big-block GM V8 soldiered on. In fact it actually grew to nearly 502 cubic-inches (8.1-liters) in later years and became even more powerful. Last year the Vortec 8100, 8.1-liter V8 cranked out 340 hp and 455 lb.-ft. of torque.
Big block V8s have a mountain of torque down low in the rev range. And that makes them great for towing. But they sure are thirsty at the pump. Modern diesels provide almost double the mileage and exceed the torque by a wide margin.
So its no surprise GM killed the big- block. But don’t blame GM. It’s Rudolf Diesel’s fault. Diesels simply provide more of what the heavy hauler needs. Still, it’s a little sad for those of us that fondly remember the rumble of a big-block V8.—Ben Stewart
No big-block V8 under this hood.
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Chevrolet big-block engine
American V-8 car engine
Motor vehicle engine
The Chevrolet “big block” engine is a term for a series of large-displacement, naturally-aspirated, 90°, overhead valve, gasoline-powered, V-8 engines; that were developed and produced by the Chevrolet Division of General Motors, from the 1950s until present.
Chevrolet had introduced its popular small block V8 in 1955, but needed something larger to power its medium duty trucks and the heavier cars that were on the drawing board. The big block, which debuted in 1958 at 348 cu in (5.7 L), was built in standard displacements up to 494 cu in (8.1 L), with aftermarket crate engines sold by Chevrolet exceeding 500 cu in (8.2 L).
The first version of the “Big Block” V8 Chevrolet engine, known as the W-series, was introduced in 1958. Chevrolet designed this engine for use in passenger cars and light trucks. This engine had an overhead valve design with offset valves and uniquely scalloped rocker covers, giving it a distinctive appearance. The W-series was produced from 1958 to 1965, and had three displacement options:
348 cu in (5.7 L), available from 1958 to 1961 in cars, and in light trucks through 1964;
409 cu in (6.7 L), available from 1961 to 1965; and
427 cu in (7.0 L), available in 1962 and 1963.
The W-series engine was made of cast iron. The engine block had 4.84-inch (123 mm) bore centers, two-bolt main bearing caps, a “side oiling” lubrication system (the main oil gallery located low on the driver’s side of the crankcase), with full-flow oil filter, and interchangeable cylinder heads. Heads used on the high performance 409 and 427 engines had larger ports and valves than those used on the 348 and the base 409 passenger car and truck engines, but externally were identical to the standard units – but for the location of the engine oil dipstick, on the driver’s side on the 348 and the passenger’s on the 409/427. No satisfactory explanation was ever offered for why this change was made, but it did provide a reliable means of distinguishing a 348 from the larger engines.
As with the 265 and 283 cu in (4.3 and 4.6 L) “Small Block” engines, the W-series valve gear consisted of tubular steel pushrods operating stud-mounted, stamped-steel rocker arms. The push rods also acted as conduits for oil flow to the valve gear. Due to the relatively low mass of the valve train, mechanical lifter versions of the W-series engine were capable of operating at speeds well beyond 6000 RPM.
The combustion chamber of the W-series engine was in the upper part of the cylinder, not the head, the head having only tiny recesses for the valves. This arrangement was achieved by combining a cylinder head deck that was not perpendicular to the bore with a crowned piston, which was a novel concept in American production engines of the day. As the piston approached top dead center, the angle of the crown combined with that of the head deck to form a wedge-shaped combustion chamber with a pronounced quench area. The spark plugs were inserted vertically into the quench area, which helped to produce a rapidly moving flame front for more complete combustion.
The theory behind this sort of arrangement is that maximum brake mean effective pressure (BMEP) is developed at relatively low engine speeds, resulting in an engine with a broad torque curve. With its relatively flat torque characteristics, the “W” engine was well-suited to propelling both the trucks and heavier cars that were in vogue in the US at the time. The W-series was a physically massive engine when compared to the “Small Block” Chevrolet engine. It had a dry weight of approximately 665 pounds (302 kg), depending on the type of intake manifold and carburetion systems present. Compared to the 283 “Small Block,” it measured 1.5 inches longer, 2.6 inches wider, and 0.84 inches less tall.[12]
General Motors engineers explained, in 1959, reasons behind the combustion-in-block setup. Anticipating varied future compression ratios in future auto and truck use: “It was obvious that with the combustion chamber placed within the cylinder head, the foundry must retool every time a compression change is in order. The necessity of making special heads to provide a range of compression ratios and to permit attachment of accessory mountings for the various model applications is of serious concern to the manufacturing and service departments….Inclining the top of the block to 16 deg and shaping the top of the piston like a gabled roof with a 16-deg angle resulted in a 32-deg wedge-shaped combustion space….The addition of two milled cutouts [in the head] to extend the volume of the combustion wedge can create a compression ratio of 7.5/1; one milled cutout produces a 9.5/1 compression ratio. The difference between the volume of these cutouts provides a wide compression range without making any changes in the piston or cylinder head. The number or size of cutouts is varied simply by adding or removing cutters.”[13]
348 [ edit ]
The first iteration of the W-series engine was the 1958 “Turbo-Thrust” 348-cubic-inch (5.7 L), originally intended for use in Chevrolet trucks but also introduced in the larger, heavier 1958 passenger car line. Bore and stroke was 4+1⁄8 in × 3+1⁄4 in (104.8 mm × 82.6 mm), resulting in a substantially oversquare design. This engine was superseded by the 409 cu in (6.7 L) as Chevrolet’s top performing engine in 1961 and went out of production for cars at the end of that year. It was produced through 1964 for use in large Chevrolet trucks.
With a four-barrel carburetor, the base Turbo-Thrust produced 250 hp (186 kW). A special “Tri power” triple-two-barrel version, called the “Super Turbo-Thrust”, produced 280 hp (209 kW). A “Special Turbo-Thrust” further upped the power output to 305 hp (227 kW) with a single large four-barrel carburetor. Mechanical lifters and triple two-barrel carburetors brought the “Special Super Turbo-Thrust” up to 315 hp (235 kW). For 1959 and 1960, high-output versions of the top two engines were produced with 320 hp (239 kW) and 335 hp (250 kW) respectively. In 1961, power was again increased to 340 hp (254 kW) for the single four-barrel model, and 350 hp (261 kW) when equipped with triple two-barrels.
Versions First Year Last Year Model Name Features Power (Advertised Gross) 1958 1961 Turbo-Thrust 4 barrel 250 hp (186 kW) Super Turbo-Thrust 3×2 barrel 280 hp (209 kW) Special Turbo-Thrust 4 barrel 305 hp (227 kW) 1960 Special Super Turbo-Thrust 3×2 barrel 315 hp (235 kW) 1959 Special Turbo-Thrust 4 barrel 320 hp (239 kW) 1961 Special Super Turbo-Thrust 3×2 barrel 335 hp (250 kW) 1960 Special Turbo-Thrust 4 barrel 340 hp (254 kW) Special Super Turbo-Thrust 3×2 barrel 350 hp (261 kW)
409 [ edit ]
A 409 cu in (6.7 L) version was Chevrolet’s top regular production engine from 1961 to 1965, with a choice of single or 2X4-barrel Rochester carburetors. Bore x stroke were both up from the 348 cu in (5.7 L) to 4.31 in × 3.5 in (109.5 mm × 88.9 mm). On December 17, 1960, the 409 engine was announced along with the Impala SS (Super Sport) model. The initial version of the engine produced 360 hp (268 kW) with a single 4-barrel Carter AFB carburetor. The same engine was upped to 380 hp (283 kW) in 1962. A 409 hp (305 kW) version of this engine was also available, developing 1 hp per cubic inch with a dual four-barrel aluminium intake manifold and two Carter AFB carburetors. It had a forged steel crankshaft.[14] This dual-quad version was immortalized in the Beach Boys song titled “409”.
In the 1963 model year, output reached 425 bhp (431 PS; 317 kW) @ 6000 rpm and 425 lb⋅ft (576 N⋅m) @ 4200 rpm of torque with the Rochester 2X4-barrel carburetor setup, a compression ratio of 11:1 and a solid lifter camshaft.[15] The engine was available through mid-1965, when it was replaced by the 396 cu in (6.5 L) 375 hp (280 kW) Mark IV big-block engine. In addition, a 340 hp (254 kW) version of the 409 engine was available from 1963 to 1965, with a single 4-barrel cast iron intake mounting a Rochester 4GC square-bore carburetor, and a hydraulic-lifter camshaft.
427 (Z11) [ edit ]
A special 427-cubic-inch (7.0 L) version of the 409 engine was used in the 1963 Impala Sport Coupé, ordered under Chevrolet Regular Production Option (RPO) Z11.[16] This was a special package created for drag racers, as well as NASCAR,[17] and it consisted of a 427 cu in (7.0 L) engine with aluminium body parts, and a cowl-induction air intake system. The aluminium body parts were fabricated in Flint, Michigan at the facility now known as GM Flint Metal Center.[18] Unlike the later, second-generation 427, it was based on the W-series 409 engine, but with a longer 3.65 in (92.7 mm) stroke. A high-rise, two-piece aluminium intake manifold and dual Carter AFB carburetors fed a 13.5:1 compression ratio to produce an under-rated 430 hp (321 kW) and 575 lb⋅ft (780 N⋅m). Fifty RPO Z11 cars were produced at the Flint GM plant.
Extant GM Documents show 50 Z11 engines were built at the GM Tonawanda Engine plant for auto production, and 20 partial engines were made for replacement/over-the-counter use. Unfortunately, there is no evidence from GM that shows 57 cars were built.[clarification needed][citation needed]
Mark II [ edit ]
The so-called Mystery Motor, known internally as the Mark II or Mark IIS, is a race-only[19] engine produced for the 1963 season. Development began with a 409 cu in (6.7 L) version (Mark II) and ended with a 396 cu in (6.5 L) variant; however only the 427 cu in (7.0 L) engine (Mark IIS) was ever raced. It gained its nickname due to the incredible speeds cars equipped with it attained during its debut, being considerably faster than the well known W-series powered cars. The engine was first used in Mickey Thompson’s Z-06 Corvettes at Daytona in the 1963 Daytona 250 Miles – American Challenge Cup,[20] and then in 1963 Daytona 500 where the number 13 car, driven by Johnny Rutherford,[21] finished four laps down (in ninth place), with the top five cars being the heavier 1963 Ford Galaxie 500’s. This “secret” engine was a unique design incorporating aspects of both the W-series and the mid-1965 introduced Mark IV,[19] referred to in sales literature as the “Turbo-Jet V8”.
Richard Keinath, the original MK. II and MK. IV design Engineer stated the MK III was a regular MK II design Cite error: There are tags on this page without content in them (see the help page).with a larger bore but Tonowanda didn’t want to cast a block with a bore that large. The Packard rumor was just that, a rumor.Cite error: There are tags on this page without content in them (see the help page).Dick Keinath interview in Alex Gabbards book FAST CHEVYS
Mark III [ edit ]
Packard’s V8-engine tooling and production rights were considered for purchase by Chevrolet. Project did not proceed.[22]
Mark IV [ edit ]
The Mark IV differed from the W-series engine in the placement of the valves and the shape of the combustion chambers. Gone was the chamber-in-block design of the W-series engine (which caused the power curve to drastically dip above 6500 rpm), and in its place was a more conventional wedge chamber in the cylinder head, which was now attached to a conventional 90 degree deck. The valves continued to use the displaced arrangement of the W-series engine, but were also inclined so that they would open away from the combustion chamber and cylinder walls, a design feature made possible by Chevrolet’s stud mounted rocker arms. This alteration in valve placement resulted in a significant improvement in volumetric efficiency at high RPM and a substantial increase in power output at racing speeds. Owing to the appearance of the compound angularity of the valves,[23] the automotive press dubbed the engine the “porcupine” design.
As part of the head redesign, the spark plugs were relocated so that they entered the combustion chamber at an angle relative to the cylinder centerline, rather than the straight-in relationship of the W-series engine. This too helped high RPM performance. Due to the new spark plug angle, the clearance provided by the distinctive scalloped valve covers of the W-series was no longer needed, and wide, rectangular covers were used.
In all forms (except the aluminum ZL-1), the “rat motor”, as it was later nicknamed (small-block engine being a “mouse motor”), was slightly heavier than the W-series model, with a dry weight of about 685 lb (311 kg). Aside from the new cylinder head design and the reversion to a conventional 90 degree cylinder head deck angle, the Mark IV shared many dimensional and mechanical design features with the W-series engine. The cylinder block, although more substantial in all respects, used the same cylinder bore pitch (bore spacing) of 4.84 in (123 mm) with a larger 2.75 in (70 mm) main bearing dimension, increased from the 2.5 in (63.5 mm) of the older engine (in fact, the shorter-stroke 348 and 409 crankshafts could be installed with the use of “spacer bearings” without modifying the crankshaft). Like its predecessor, the Mark IV used crowned pistons, which were castings for conventional models and impact extruded (forged), solid skirt types in high performance applications.
Also retained from the W-series design were the race-proven Moraine M400 aluminum bearings first used in the 409, as well as the highly efficient “side oiling” lubrication system, which assured maximum oil flow to the main and connecting rod bearings at all times. Later blocks intended for performance use had the main oil gallery moved up to the cam bearing bore area and provided “priority main” oiling, improving the oil system even further.
366 [ edit ]
The 366 cu in (6.0 L) Big Block V-8 gasoline engine was used in Chevrolet medium duty trucks, school buses and police sedans. It had a bore and a stroke of 3.935 in × 3.76 in (99.9 mm × 95.5 mm). This engine was made from the 1960s until 2004.The 366 used 4 rings on the pistons, as it was designed from the very beginning as a truck engine. The 366 was produced only as a tall-deck engine, with a deck 0.4 in (10 mm) taller than the 396, 402, and 454 short-deck Big Blocks.
396 and 402 [ edit ]
The 396 cu in (6.5 L) V8 was introduced in the 1965 Corvette as the L78 option and in the Z16 Chevelle as the L37 option. It had a bore x stroke of 4.094 in × 3.760 in (104 mm × 95.5 mm),[24][25] and produced 375 bhp (380 PS; 280 kW) at 5600 rpm and 415 lb⋅ft (563 N⋅m) of torque at 3600 rpm.[26] The solid lifter version was capable of being operated in the upper 6000 rpm range, and when installed in the 1965 Corvette, was factory-rated at 425 hp (317 kW).
Introduced in 1970, the 402 cu in (6.6 L) was a 396 cu in (6.5 L) bored out by 0.03 in (0.76 mm). Despite being 6 cubic inches (98 cc) larger, Chevrolet continued marketing it under the popular “396” label in the smaller cars while at the same time labeling it “Turbo-Jet 400” in the full-size cars.
Power rating(s) by year:
1965: 325 hp (242 kW)/375 hp (280 kW)/425 hp (317 kW)
1966: 325 hp (242 kW)/360 hp (268 kW)/375 hp (280 kW)
1967: 325 hp (242 kW)/350 hp (261 kW)/375 hp (280 kW)
1968: 325 hp (242 kW)/350 hp (261 kW)/375 hp (280 kW)
1969: 265 hp (198 kW)(2bbl)/325 hp (242 kW)/350 hp (261 kW)/375 hp (280 kW)
1970: 350 hp (261 kW)/375 hp (280 kW)
1971: 300 hp (224 kW) SAE gross; while SAE net was 260 hp (194 kW) for dual exhaust and 206 hp (154 kW) for single exhaust
1972: 240 hp (179 kW) SAE net for dual exhaust and 210 hp (157 kW) SAE net for single exhaust
Used in:
396 and 402 Production codes
396
L-34: produced 1966–9, 10.25:1 compression, Holley (Q-jet 1968–1969) carburetor, hydraulic lifters, oval port closed chamber heads, forged steel crankshaft, and two-bolt main caps. It produced 350 to 360 hp (261 to 268 kW). [27]
L-35: produced 1965–9, had 10.25:1 compression, Q-jet carburetor, forged steel (1965-1967) or nodular iron (1968-9) crankshaft, hydraulic lifters, oval port closed chamber heads, and two-bolt main caps. It produced 325 hp (242 kW). [27]
L-37: produced 1965 similar to L-78 except for having hydraulic lifters and slightly milder cam; 2-bolt main caps; designed specifically for the 1965 Z16 Chevelle
L-66: produced 1969, rare two-barrel carburetor, 9:1 compression, nodular iron crankshaft, hydraulic lifters, oval port closed chamber heads, and two-bolt main caps. It produced 265 hp (198 kW). [27]
L-78: produced 1965–9, had a Holley 800 cu ft/min (23 m3/min) carburetor, compression ratio 11:1, forged pop-top pistons, aluminium high-rise intake manifold, steel crankshaft, solid lifter cam (same as the L-72), rectangular (“square”) port closed chamber heads, and four-bolt main caps. It produced 375 bhp (280 kW) in mid-size cars, 425 bhp (317 kW) in Corvettes.[27]
402
LS-3: produced 1970–2, 10.25:1 (1970) or 8.5:1 (1971) compression, hydraulic lifters, nodular iron crankshaft, and two-bolt main caps. It produced 330 hp (246 kW) (1970), 300 hp (224 kW) (1971), 210 or 240 hp (157 or 179 kW) (1972 net horsepower, single or dual exhaust). [27]
L-34: produced 1970. Same as 396 cu in (6.5 L) L-34 from 1967 to 1969.
L-78: produced 1970. Same as 396 cu in (6.5 L) L-78 from 1966 to 1969.
427 [ edit ]
The highly successful and versatile 427 cu in (7.0 L) version of the Mark IV engine was introduced in 1966 as a production engine option for full-sized Chevrolets and Corvettes. The bore was increased to 4+1⁄4 in (108 mm), with power ratings varying widely depending on the application. There were smooth running versions with hydraulic lifters suitable for powering the family station wagon, as well as rough-idling, high-revving solid lifter models usually applied to a minimally equipped, plain-looking, two-door Biscayne sedan fitted with the 425 hp (317 kW) version of the 427 – (RPO L72).
Perhaps the ultimate 427 for street applications was the 435 bhp (441 PS; 324 kW) at 5800 rpm and 460 lb⋅ft (624 N⋅m) at 4000 rpm of torque L71 version available in 1967 to 1969 Corvettes, and in the Italian Iso Grifo. This engine was identical to the 425 hp (317 kW) L72 427 (first introduced in 1966), but was fitted with 3X2-barrel Holley carburetors,[28] known as “Tri-Power”, in lieu of the L72’s single 4-barrel carburetor. Both engines used the same high-lift, long-duration, high-overlap camshaft and large-port, cast-iron heads to maximize cylinder head airflow (and, hence, engine power) at elevated engine-operating speeds. Consequently, the engines offered very similar performance and resulted in a car whose performance was described by one automotive journalist as “the ultimate in sheer neck-snapping overkill”. Typical magazine road tests of the day yielded 0-60 mph (97 km/h) in 5.6 seconds and 1⁄4 mile (402 m) in 13.8 second at 104 mph (167 km/h) range for both the L72 and L71.[29][30]
In 2011, Super Chevy Magazine conducted a chassis dynamometer test of a well documented, production-line, stock but well-tuned L-72 “COPO” Camaro, and recorded a peak 287 hp (214 kW) at the rear wheels, demonstrating the substantial difference between 1960s-era SAE “gross” horsepower ratings and horsepower at the wheels on a chassis dynomometer. Wheel horsepower (which is obtained at the drive wheels and thus takes into account drivetrain power loss) does not equate to SAE net HP (which is horsepower at the flywheel, like SAE gross, but with all accessories included, unlike SAE gross).[31]
The RPO L89 was an L71 fitted with aluminum heads. While this option produced no power advantage, it did reduce engine (and hence, vehicle) weight by roughly 75 pounds (34 kg). This resulted in superior vehicle weight distribution for improved handling, although the difference in straight line performance was negligible.
ZL1 [ edit ]
The 1969 ZL1 version of the 427 engine was developed primarily for Can-Am racing, where it was very successful in cars like the McLaren M8B. The ZL1 specifications were nearly identical to the production L88 version of the 427, but featured an all-aluminum cylinder block, in addition to aluminum cylinder heads, which dropped the total engine weight into small-block territory (approx. 575 lb or 261 kg dressed).[citation needed] The first Corvette with the RPO ZL1 engine package was built in early December 1968 and featured aluminum closed chamber heads shared with the L88. Both L88 and ZL1 optioned cars continued to be built with closed chamber heads until approximately March 1969, when the open combustion chamber aluminum heads finally were in production and began being fitted to the L88 and ZL1 engines. The ZL1 engine also featured a lightweight aluminum water pump, a camshaft that was slightly “hotter” than the L88’s, and a specially tuned aluminum intake manifold. Like the L88, the ZL1 required 103 octane (RON) (minimum) fuel, used an unshrouded radiator, and had poor low-speed idle qualities – all of which made the two engines largely unsuitable for street use. (102 octane RON [Sunoco 260] represented the highest octane gasoline sold at common retail stations.)
As impressive as the ZL1 was in its day, actual engine dyno tests of a certified production line stock ZL1 revealed 376 hp (280 kW) SAE net with output swelling to 524 hp (391 kW) SAE gross with the help of optimal carb and ignition tuning, open long tube racing headers, and with no power-sapping engine accessories or air cleaner in place.[32] A second engine dyno test conducted on a second production line stock (but recently rebuilt and partially blueprinted) ZL1 revealed nearly identical figures for the various “gross” conditions.[33]
Period magazine tests of the ZL1 were quite rare due to the rarity of the engine itself. High-Performance Cars tested a production line stock, but well tuned, example and recorded a 13.1 second/110 mph (180 km/h) 1⁄4 mile (402 m), which correlates quite well with the previously referenced 376 hp (280 kW) SAE Net figure. Super Stock and Drag Racing Magazine recorded an 11.62 second/122.15 mph (196.58 km/h) 1⁄4 mile (402 m) in a ZL1 Camaro that was professionally tuned and driven by drag racing legend Dick Harrell, although that car was also equipped with open long-tube S&S equal-length headers, drag slicks, and minor suspension modifications. Using Patrick Hale’s Power/Speed formula, the 122.15 mph (196.58 km/h) trap speed indicated low 11-second ET (elapsed time) potential (e.g. with larger drag slicks) and suggested something on the order of 495 hp (369 kW), “as installed”, in that modified configuration. This large difference in power suggests that the OEM exhaust manifolds and exhaust system were highly restrictive in the ZL1 application, as was also the case with the similar L88.
The $4,718 cost of the ZL1 option doubled the price of the 1969 Corvette, but resulted in a car with exceptional performance for its day. Just two production Corvettes (factory option at dealer) and 69 Camaros (non-dealer option from factory – COPO 9560) were built with the ZL1.
Chevrolet capitalized on the versatility of the 427 design by producing a wide variety of high-performance, “over-the-counter” engine components as well as ready-to-race “replacement” engines in shipping crates. Some of the components were developed to enhance the engine’s reliability during high RPM operation, possibly justifying the use of the description “heavy duty.” However, most of these items were racing parts originally designed for Can-Am competition that found their way onto dealers’ shelves, and were meant to boost the engine’s power output.
Beginning in 1969, the highest performance 427 models were fitted with the new open (vs. closed) chamber cylinder heads, along with design improvements in crankshafts, connecting rods, and pistons, adopted from the Can-Am development program.
Chevrolet gave all 427 engines except the ZL1 a torque rating of 460 lb⋅ft (624 N⋅m).
427 performance specs [ edit ]
First
Year Last
Year Engine
Code Features Compression
ratio Factory
Gross Power
Rating 1966 1969 L36 4-barrel 10.25:1 390 hp (291 kW) 1966 1969 L72 4-barrel + solid-lifters, more aggressive cam and high flow cylinder heads 11.00:1 425 hp (317 kW)[a] 1967 1969 L68 L36 with 3×2-barrel carbs. 10.25:1 400 hp (298 kW) 1967 1969 L71 L72 with 3×2 barrel carbs. 11.00:1 435 hp (324 kW) 1967 1969 L89 L71 + aluminium heads; RPO L89 also applied to L78 “375 HP” 396 engine with aluminium head option. 11.00:1 435 hp (324 kW) 1967 1969 L88 Racing-spec cam, high-flow aluminium heads (casting #s varied by model year) and some upgraded, competition-grade parts 12.50:1[b] 430 hp (321 kW)[c] 1969 1969 ZL1 Aluminium block with open chamber “3946074” aluminium heads (the early Corvette RPO engine featured a closed chamber head); cam even “hotter” than L88’s; upgraded parts similar to L88’s 12.00:1 430 hp (321 kW)
Notes:
427 Production codes
LS-1: produced 1969, 10.25:1 compression, Q-jet carburetor, oval port closed chamber heads, hydraulic lifters, nodular iron crankshaft, and two-bolt main caps. It produced 335 hp (250 kW). [34]
L-36: produced 1966–9, had 10.25:1 compression, Holley or Q-jet carburetor, nodular iron crankshaft, hydraulic lifters, oval port closed chamber heads, and two-bolt main caps. It produced 385 hp (287 kW) in 1967–68 full-size cars, 390 hp (291 kW) in 1969 full-size cars and Corvettes (by exhaust system). [34]
L-68: produced 1967–9, had 10.25:1 compression, Tri-Power, nodular iron crankshaft, hydraulic lifters, aluminium oval port closed chamber heads, and two-bolt main caps. It produced 400 hp (298 kW), and was used in Corvettes.[34]
454 [ edit ]
454 in a 1970 Chevelle SS
For 1970, the Big-Block was expanded again, to 454 cu in (7.4 L), with a bore x stroke of 4+1⁄4 in × 4 in (108.0 mm × 101.6 mm). The 1970 Chevrolet Corvette LS5 version of this engine was factory-rated at 390 bhp (395 PS; 291 kW) and 500 lb⋅ft (678 N⋅m), and the LS6 engine equipped with a single 4-barrel 800 cu ft/min (23 m3/min) Holley carburetor was upgraded to 450 bhp (456 PS; 336 kW) at 5600 rpm and 500 lb⋅ft (678 N⋅m) at 3600 rpm of torque.[35][36]
It has been suggested[by whom?] that the LS6 was nominally substantially underrated, which was a common practice of American car makers;[citation needed] and that the engine actually produced well over 500 hp (373 kW) as delivered from the factory. Indeed, the AHRA ASA (Showroom Stock Automatic) Class record-holding Chevelle LS-6 for the 1970 racing season posted a best-of-season trap speed of 106.76 mph (172 km/h),[37] which suggests something on the order of 350 “as installed” (SAE Net) HP for a 3,900 pounds (1,769 kg) car-and-driver combination.[citation needed] Indeed, Super Chevy Magazine conducted a chassis dyno test of a well-documented, well tuned, but stock 1970 LS-6 Chevelle and recorded 283 peak HP at the wheels[31] – a figure that lines up quite well with the previously referenced 350 SAE Net HP figure.[citation needed]
An even more powerful version, producing 465 hp (347 kW) and 610 lb⋅ft (827 N⋅m), of the 454, then dubbed LS-7 (not to be confused with the modern, mid 2000s, 7-litre Chevrolet Corvette engine that powered the C6 Z06), was also developed. Several LS-7 intake manifolds were individually produced and sold to the general public by a few Chevrolet dealers as optional performance parts. The LS-7 was later offered as a crate engine from Chevrolet Performance with an officially rated power minimum of 500 hp (373 kW) gross.
In 1971, the LS-5 produced 365 hp (272 kW) and 550 lb⋅ft (746 N⋅m), and the LS-6 option came in at 425 hp (317 kW) and 575 lb⋅ft (780 N⋅m). In 1972, only the LS-5 remained, when SAE net power ratings and the move towards emission compliance resulted in a temporary output decline, due to lowered compression, to about 270 hp (201 kW) and 468 lb⋅ft (635 N⋅m). The 1973 LS-4 produced 275 hp (205 kW) and 468 lb⋅ft (635 N⋅m), with 5 hp (4 kW) and 10 lb⋅ft (14 N⋅m) gone the following year. Hardened valve seats further increased reliability and helped allow these engines to last much longer than the earlier versions, even without the protection previously provided by leaded fuel. 1974 was the last year of the 454 in the Corvette, although the Chevelle offered it in the first half of the 1975 model year. It was also available in the full size Impala/Caprice through model year 1976.
L19 [ edit ]
General Motors introduced EFI in 1987, which was found on GM C1500 SS, C/K2500 and C/K3500 trucks. The 454 EFI version was rated from 230 hp (172 kW) to 255 hp (190 kW) and from 385 lb⋅ft (522 N⋅m) to 405 lb⋅ft (549 N⋅m) of torque. The 1991 through 1993 455SS made 255 HP at 4000 TPM and 405 TQ at 2400 RPM thanks to dual 2.5″ catalytic converters. All other versions, including the 1990 SS, made 230 HP at 3600 RPM and 385 TQ at 1600 RPM through a single 3″ catalytic converter. Easily verified through GM Heritage Center website.
1987-1990 Chevrolet C/K
1987 GMC Suncrest
Commercial applications [ edit ]
Mark IV engines saw extensive application in Chevrolet and GMC medium duty trucks, as well as in Blue Bird Corporation’s All American and TC/2000 transit buses (the latter up until 1995, using a 427 with purpose-built carburetor). In addition to the 427, a 366 cu in (6.0 L) version was produced for the commercial market. Both the 366 and 427 commercial versions were built with a raised-deck, four-bolt main bearing cap cylinder to accommodate an extra oil control ring on the pistons. Unfortunately, the raised deck design complicated the use of the block in racing applications, as standard intake manifolds required spacers for proper fit. Distributors with adjustable collars that allowed adjustments to the length of the distributor shaft also had to be used with 366 and 427 truck blocks.
Mark IV engines also found themselves widely used in power boats. Many of these engines were ordinary Chevrolet production models that were fitted with the necessary accessories and drive system to adapt them to marine propulsion. Mercury Marine, in particular, was a major user of the Mark IV in marine drives, and relabeled the engines with their corporate logo.
Generation V [ edit ]
For 1991 General Motors made significant changes to the Big-Block resulting in the Generation V. The block received a one-piece rear seal and all blocks received 4-bolt mains. Additionally the main oil galley was moved from near the oil pan to near the camshaft. Also the valvetrain became non-adjustable and the provisions for a mechanical fuel pump were eliminated. Cast aluminium rocker covers were fitted in place of stamped steel covers, featuring a screw-in filler cap.[38] Structural changes were carried out to the cylinder case to improve the integrity of the bores and the inlet manifold was changed to a single-piece design.[39]
The 366 cu in (6.0 L) truck engine also received the Mark V updates for 1991.[39]
L19 [ edit ]
From 1991 the 454 was updated to the new Gen V block, crankshaft and heads. This engine was rated at 230 net hp, 380 ft lbs net torque, and was discontinued after 1995, GM coming out with the Vortec 7400 in 1996.
502 [ edit ]
The Chevrolet 502 V8
The 502—with a 501.28 cu in (8.2 L) total displacement—had a bore and stroke of 4.466 in × 4 in (113.4 mm × 101.6 mm) and a cast iron 4-bolt main block. GM offered it in their Performance Parts catalog, available as multiple crate motors with horsepower ratings from 338 to 600 hp (252 to 447 kW) and torque of 470 to 567 lb⋅ft (637 to 769 N⋅m) in “Base” and “Deluxe” packages.[40] The “Ram Jet 502”,[41] the 496 hp (370 kW) / 565 lb⋅ft (766 N⋅m) crate motor, was offered with fuel injection, and came as a turn key setup which included all the wiring and electronics needed to operate in any vehicle. It was also used in marine applications.
ZZ572 [ edit ]
General Motors began offering a newly developed 572 cu in (9.4 L) in 1998[42] to the aftermarket via its GM Performance Parts division. This engine has a bore and a stroke of 4.56 in × 4+3⁄8 in (115.8 mm × 111.1 mm). This is a 620 hp (462 kW) and 650 lb⋅ft (881 N⋅m) version, designated ZZ572/620 Deluxe, capable of running on 92 octane pump gasoline for street applications.[43] Another version of the same engine is available as a high compression variant, codenamed ZZ572/720R Deluxe, generating a minimum of 720 hp (537 kW) on high-octane, i.e., race-gas.[44] The 572 is officially offered by Chevrolet for the 2022 model year COPO Camaro.[45][46][47]
ZZ632 [ edit ]
In 2021, Chevrolet Performance presented the largest and most powerful crate engine in the brand’s history — the ZZ632/1000 crate engine. It’s a naturally-aspirated, 632 cu in (10.4 L) V-8; producing 1,004 hp (749 kW) and 876 lb⋅ft (1,188 N⋅m) of torque.[48] The motor itself weighs 680 lb (310 kg).[49]
According to Russ O’Blenes, the GM director of the Performance and Racing Propulsion Team; “This is the biggest, baddest crate engine we’ve ever built. The ZZ632 sits at the top of our unparalleled crate engine lineup as the king of performance. It delivers incredible power, and it does it on pump gas.”[50]
The Big Block V-8 reaches peak power at 6,600 rpm, and revs to a recommended maximum of 7,000 rpm. Fuel is delivered through eight-port injectors, with the engine breathing through CNC-machined high-flow aluminum cylinder heads featuring symmetrical ports. While Big Blocks have usually been designed with variations in port shape from cylinder to cylinder, all eight intake ports of the ZZ632 have the same volume, length, and layout. Furthermore, all of the ZZ632’s exhaust ports are identical. This arrangement guarantees all individual cylinders produce similar power.[51]
These RS-X Symmetrical Port cylinder heads are named for powertrain engineer Ron Sperry, who designed them as one of his final accomplishments in more than 50 years working on General Motors performance and racing engines. Sperry also introduced symmetrical ports to Chevy’s iconic Small Block V-8, with the Gen III LS1 engine that debuted in the 1997 Chevrolet Corvette.
The ZZ632’s iron block shares a mold with Chevrolet Performance’s ZZ572 crate engines, but the castings are machined to accommodate the huge 632 cubic-inch displacement. The bore grows by 0.040 in (1.0 mm), compared to the 572-cubic-inch V-8s, with most of the displacement gain coming from a stroke that’s 0.375 in (9.5 mm) longer. To provide clearance for that long-stroke, engineers modified both the block and the connecting rods. Four-bolt main caps and a forged rotating assembly assure strength and durability. During development, a single-engine endured more than 200 simulated drag strip passes on a dynamometer.
The ZZ632/1000 crate engine is slated to be on display at the 2021 SEMA Show in Las Vegas, November 2–5. Chevrolet Performance dealers will begin deliveries in early 2022.[52]
Generation VI [ edit ]
Vortec 7400 (L29) [ edit ]
The Vortec 7400 L29 7.4 L (454 cu in) V8 was a truck version of the Chevrolet Big-Block engine. Introduced in 1996, it was produced for five years, until replaced by the Vortec 8100. Although introduced as the Vortec 7400 in 1996, it was basically a 454 Big-Block with a hydraulic roller cam, parts more suitable for use in light duty trucks, and more advanced technology. The engine had MPFI (multi-port fuel injection), which gave slightly more power and better fuel economy, and 2 valves per cylinder. The engine had a bore and stroke of 4+1⁄4 in × 4 in (108.0 mm × 101.6 mm), producing 290 hp (216 kW) at 4000 rpm and 410 lb⋅ft (556 N⋅m) at 3200 rpm.
L29 Applications:
Vortec 7400 (L21) [ edit ]
The Vortec 7400 L21 was a commercial version of the Chevrolet Big-Block engine used in the medium duty truck platform. Its design shared much with the L29 454, but with the addition of forged pistons and crankshaft, and coil near plug ignition. It had slightly reduced power compared to the L29 454 and used a different PCM. The L21 was paired with the early 4 speed Allison automatic transmission or manual transmission, depending on the application.
L21 Applications:
1998–2001 Chevrolet Kodiak/GMC TopKick/Isuzu H-Series 4500 5500
1998–2001 Kodiak/Topkick
1998–2001 P12 HD Motorhome Chassis. The Workhorse W-20 is a clone of the P12 Chassis.
Generation VII [ edit ]
Vortec 8100 (L18) [ edit ]
The Vortec 8100 L18 is a big-block V8 engine primarily used as a truck engine. It was a redesigned Chevrolet big-block engine and was introduced with the 2001 full-size pickup trucks. It is an all-iron engine (block and heads) with two valves per cylinder. It retained the same bore diameter as the old 7.4 L (454 cu in) big-blocks, but the stroke was upped by 9.4 mm (0.37 in) to reach 495.95 cu in (8.1 L), for a total bore and stroke of 4+1⁄4 in × 4.37 in (107.95 mm × 111.00 mm). Power output ranged from 210 to 340 hp (157 to 254 kW), and torque from 325 to 455 lb⋅ft (441 to 617 N⋅m).[53][54][55][56][57][58]
Other important differences between the Vortec 8100 and older big-blocks include a changed firing order. The firing order of older big-block engines is 1-8-4-3-6-5-7-2[59] while Vortec 8100’s firing order is 1-8-7-2-6-5-4-3. Other upgrades of Vortec 8100 include a new 18-bolt head bolt pattern, longer connecting rods, different symmetrical intake ports, different oil pan rails, and the use of metric threads throughout the engine. The fuel-injection system for the Vortec 8100 is nearly identical to that used on Gen III small block engines, right down to the fuel and spark tables in the ECU.[60]
Vortec 8100s were built at GM’s Tonawanda Engine plant while the engine block and cylinder head were cast at Saginaw Metal Casting Operations. The last L18 was manufactured in December 2009.
L18 Applications:
GM sold the Vortec 8100 to Workhorse (now a division of Navistar), making it one of the most popular engine choices in gas powered Class A motorhomes during the first decade of this century. GM stopped installing big-block V8s in the Silverado HD trucks when the GMT-800 series was discontinued in 2007.
Aftermarket [ edit ]
Many custom engine builders across the United States, as well as a large variety of aftermarket components manufactured for the Big Block family, make it possible to build a complete Big Block engine that contains no Chevrolet components. Blocks made of both iron and aluminium alloys, for many different purposes—e.g. street-use, racing, etc.—are available in stock or modified configurations, as well as with increased deck height to allow for a longer stroke or more favorable rod length ratios, depending on intent, providing the ability to make engines with capacities of 632-cubic-inch (10.4 L),[62] 798-cubic-inch (13.1 L),[63] and as large as 1,005.8-cubic-inch (16.5 L).[64]
See also [ edit ]
From the 1950s through the 1970s, each GM division had its own V8 engine family. Many were shared with other divisions, but each design is most closely associated with its own division:
GM later standardized on the later generations of the Chevrolet design:
Competitors’ equivalent offerings:
^ Chevrolet actually advertised this engine as 450 hp (336 kW) for a short period of time. There is speculation over whether this engine actually put out 450 hp (336 kW) gross, or if this was a marketing oversight that was later corrected. ^ L88 had a 12.5:1 compression ratio with closed chamber heads except during the last half of 1969, when it had open chambered heads that yielded 12.0:1 ^ L88 was rated for 430 hp (321 kW) at 5200 rpm. With stock exhaust manifolds and operation in the 6,800 rpm range, it was generally accepted that the engine was capable of producing in excess of 500 hp (373 kW) gross with free-flowing (open) long tube headers.
Citations [ edit ]
Further reading [ edit ]
How Much Horsepower Does a 454 Engine Have? –
Horsepower (hp) is the rate of power a car engine produces in terms of engine performance. It is a unit of power measurement that denotes the output of vehicle engines or motors. When we talk about powerful engines or those with high horsepower, 454 big-block comes to mind, especially its V8 series, which took the muscle car industry to another level.
Before the advent of the 454-cubic-inch V-8 engine in 1970, as the last crown of the muscle legacy, the world had never experienced an evolution of the iconic muscle car lineup that has expanded into bigger yet more powerful engines. But, how much horsepower does a 454 engine have?
In performance cars like Camaro and passenger cars like El Camino, even at that time, the 454 used to offer 450 hp in its prime. However, the same horsepower ratings were reduced by 95.1 in light of a power cut.
Don’t confuse horsepower with torque. The latter measures the force applied, while the earlier is the rate at which the work is done. For example, to see how much horsepower your car gets from the engine, you calculate the rate at which it moves, and for torque, you need to find the figure that gets your car moving.
If your car’s engine offers high horsepower with low torque, then the car experience less power from a stop than in an otherwise combination. The simple rule here is – the higher the horsepower of an engine, the faster it accelerates once at speed.
In this walkthrough, we will explore the role of horsepower in a car’s performance and how you get the most out of your 454 big block Chevy V8 engine.
What is a 454 Big Block Engine?
A 454 engine is a big block of power, and it has seven (“hepto”) cylinders and four (“quad”) pistons. These specifications are commonly found in heavy trucks, but any car aficionado will tell you that this setup was originally created for muscle cars, such as Corvettes. Thanks to its durable design and high horsepower, the 454 V8 engine is truly a workhorse.
Historically speaking, back in 1970, when leveraging the popularity of its 427-cubic-inch engine, General Motors introduced a 454 engine under its Mark IV series. This bore and stroke (4+1⁄4 in × 4 inches) engine was initially available in three variations: the LS5, LS6, and LS7.
Unfortunately, the LS7, intended for high-performance cars and heavy-duty trucks, including the Chevelle and Corvette, was never available to the general public. There were rumors that the engines’ horsepower output was intentionally kept low due to ongoing muscle car wars.
All the 1970s versions of the 454 engine were the most powerful of time, with the LS5 giving 360 horsepower and the LS6 delivering 450 horses. Due to prevalent threats and market conditions, LS6 was phased out after a year, while LS5 was reduced to 245 horsepower.
When delivered from the factory, LS6 was equipped with a single 4-barrel 800 cu ft./min and produced over 500 hp. This version also came with an upgraded Holley carburetor, but 454 LS6 was considered substantially underrated among American carmakers.
Never available to the public, some LS-7 intake manifolds were sold by select Chevrolet dealers as optional performance parts. Due to some reason, the engine was ignored as a crate engine with a power of 500 hp.
Photo Credit: Motor Trend
What is Horsepower?
When comparing different cars, one of the metrics is horsepower. Horsepower is defined as how much power an engine can create. If an engine revs faster, it makes more power; you don’t always be using the given horsepower – it’s only for when you need it, especially during racing.
It’s just like the maximum number of weight you can bench-press, you start with lifting smaller, but you can do max when necessary.
Typically, the average car horsepower falls between 180 and 200 horsepower. Larger and luxurious vehicles, like performance sedans or SUVs, often have a base-level engine that can go up to 300 horsepower.
How Much Horsepower Does a 454 Have?
Surprisingly, the 454 big-block V8 engine laid down 330 horsepower and 475 pound-feet of torque. Its truck-based 454 engine was tuned for torque with a surprise of reaching nearly 500 lb. feet without being loud. The engine block can produce a large power output. It is a good engine for performance vehicles and a great option during a gas crisis. Furthermore, the stock engine that you get in the 454 iron block is better than most other stock engines, which aftermarket components can improve.
Talking about the horsepower of the 454 V8 engine, the factory-rated specs of all three variants were:
LS5 – 390 horsepower and (395 PS; 291 kW) 500 lb-ft of torque
LS6 – 450 hp (456 PS; 336 kW) and 500 lb-ft torque
LS7 – 465 hp (347 kW) and 610 lb-ft torque
How to Get More Horsepower Out of a 454 V8 Engine?
The 454 is a classical, big block engine of the muscle car era; therefore, these engines are used in street racing cars and to power hot rods. Because of this, many 454 enthusiasts are always finding ways to pump more horsepower out of these powerful engines.
However, these engines are pure beasts that deliver superior performance. If you want more, it’s possible to upgrade them to get more power out of them.
Step #1 : Discard the stock exhaust system and buy a high-flow system; once you replace the stock headers and mufflers with high-flow parts, you can double the speed of the air flowing out of your engine and, subsequently, the horsepower your 454 creates
: Discard the stock exhaust system and buy a high-flow system; once you replace the stock headers and mufflers with high-flow parts, you can double the speed of the air flowing out of your engine and, subsequently, the horsepower your 454 creates Step #2 : Replace the air intake and fuel system. Here, the bet is to increase the power by replacing air filters and stock carburetors with high-performance alternatives – the more fuel and air your big-block engine receives, the more powerful it will become
: Replace the air intake and fuel system. Here, the bet is to increase the power by replacing air filters and stock carburetors with high-performance alternatives – the more fuel and air your big-block engine receives, the more powerful it will become Step #3 : Improve the stock timing parts, especially those tuned for drag racing. So, if you change the distributor cap, stock spark plug wires, and camshaft with some high-performing race-performing parts, you will give your engine aggressive timing, which lets it produce more power than before
: Improve the stock timing parts, especially those tuned for drag racing. So, if you change the distributor cap, stock spark plug wires, and camshaft with some high-performing race-performing parts, you will give your engine aggressive timing, which lets it produce more power than before Step #4: Use a supercharger. A supercharger uses your engine’s power and compresses the air, restricting it from reaching the combustion chamber. The more the compression, the more air enters the chamber, causing bigger explosions at combustion, which translates to some fantastic horsepower
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How to Improve a 454 V8 Engine?
If your 454 big-block engine was working well a month ago and is showing some signs of slow, weak performance, follow these simple workarounds. Your engine will immediately get back to its toes.
If the compression ratios are going down, build your engine with some cylinder pressure; an inexpensive and direct way is to install a hydraulic flat-tappet cam that’s usually used in RVs.
So-called RV cams are available to everyone; they maximize low-end performance with short durations and wide lobe separation angles. Like, a Summit Racing’s RV cam with a lifter kit offers a 1, 0004, 500-rpm. And yes, be sure to run a break-in oil with added zinc additive.
How Much Horsepower in a 454 Engine?
Now that you know how powerful the 454 engine is, what are you waiting for? If you’re a car enthusiast or a born-racer and want to amp up the performance of your racing car, get the 454 V8 engine now; an original engine will cost you $2,000+, depending upon the market availability of the warranty.
If you go for a rebuilt 454, you will have to pay lesser than the original – around $500 to $2500+, but yes, there’s no guarantee and surety to have genuine parts. It has been observed that refurbished / crate engine/aftermarket parts are superior in terms of reliability, dependability, and warranty coverage to the factory-installed ones.
Therefore, if you like to get the most horsepower of your exiting car, like that of Chevrolet iconic vehicles like Caprice, Sprint, El Camino, etc., then grab a 454 V8 engine now. It will give you that powerful engine you deserve.
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