Buick V8 engine
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Like its sister General Motors divisions, Buick produced its own family of V8 engines to replace its straight-8 engines. These engines came in many of the same displacements as those from other divisions, but were entirely different.
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[edit] Buick "Nailhead V8"
Buick first generation of V8 lasted from 1953 through 1956. It was an OHV/pushrod engine like the then new Oldsmobile "Rocket V8" engine. This engine became known as the "Nailhead" for the unusual vertical position of its small-sized valves—which looked like nails. The Nailhead-V8 family employed a camshaft with higher lift and longer duration to offset the smaller-sized valves and arguably restrictive intake- and exhaust-port areas. The small-size valves and intake runners made for engines with a lot of torque, with many exceeding one foot-pound per cubic inch, which was exceptional for the day.
[edit] 264
The 264 in³ (4.3 L) 264 was a direct replacement for the 263 straight-8 in Buick's large cars. It was produced in 1954 and 1955.
[edit] 322
The larger 322 in³ (5.3 L) 322 was used by Buick from 1953 through 1956, primarily in 'senior' series cars.
[edit] Nailhead V8
Buick's second variation of this V8 was also named Nailhead. It was produced from 1957 through 1966.
[edit] 364
Apparently the smallest displacement Nailhead, the 264, was dropped when Buick introduced its new small displacement V8. Buick, like most of its competitors, continued to expand their durable V8 engine to larger displacements such as the 364 in³ (4.125in bore)x(3.40in stroke)=(6.0 L) 364.
[edit] 400
The next member of the family was the 401 in³ (6.6 L) 400. This was actually a 401 that had been redesignated a "400" in order to meet GM directives for maximum displacement engines in mid-size cars.
Another Buick "400" engine was a member of the 400/430/455 family and was produced from 1967 to 1969.
[edit] 401
The 401 in³ (6.6 L) 401 was Buick's muscle car powerplant of choice, and was found in the company's Skylark Gran Sport and Buick Wildcat, among others. As unlikely as it seems, the air cleaner for the engine is annotated with "Wildcat 375" "Wildcat 410" "Wildcat 445" these inscriptions indicated not the in³ but the ft·lb. of torque produced by the engine. The "Wildcat 410" was the 2-barrel carburated engine that was standard on the 1962-63 LeSabre. The "Wildcat 375" was a no cost option on the 62-63 LeSabre that had lower compression to run on regular fuel (another Buick V8 had "Wildcat 375" written on its air cleaner but it wasn't a "Nailhead", it was the 4 barrel version of the 66-67 small block Buick 340). The "Wildcat 445" had a single 4 barrel carb. It was the standard engine on the Invicta, 1959-66 Electra, 1962-66 Buick Wildcat, 1963 Riviera and 1965 Riviera (the 64 and 66 Riviera models had a 425 in³ engine with a single 4 barrel carb. named "Wildcat 465" as standard equipment).
In an effort to overcome the "restrictive" exhaust port design, Buick enthusiast drag racers in the sixties adapted superchargers with a custom camshaft to feed intake air in through the exhaust ports and used the larger intake ports for exhaust outlets. Perhaps this feat of ingenuity, and the unusual appearance of the engine modified in this manner, also intimidated rival racers and added to the Nailhead V8 legend that lives upon this page of US auto history.
[edit] 425
425 in³ (7.0 L) 425 This was the largest version of the "nailhead". It began as an option in 1963 on the Riviera and it was later available on the Wildcat and Electra models too. The 1964 and 1966 Riviera had the 425 engine as standard equipment. 4 barrel carburetion was standard on all 425 "Nailheads" that were called "Wildcat 465". The "465" sticker on the air cleaner did not denote engine displacement as many thought, it denoted the torque rating. It was possible to order two 4 barrel carbs, which were delivered in the trunk along with the intake manifold and installed by the dealer. This version was called "Super Wildcat" and it was standard on the 1965 Riviera Gran Sport and the 1966 Wildcat GS. Toward the end of the 1966 model year, approximately May 1966, Buick offered the Super Wildcat 465 with dual 4BBL Carter AFB's as a factory installed option. This engine is coded "MZ" while the dealer installed dual four barrel setup was a "MW" coded engine. Their were only 179 1966 Riviera GS cars built with the MZ coded factory dual four barrel setup, making it a very rare car. Rarer still was the 1966 Riviera GS, MZ coded engine, in Riviera Red exterior color. If you have one of those, you should contact the Riviera Owners Association, they might like to hear from you.
[edit] Buick "Small-Block"
In 1961 Buick unveiled an entirely new small V8 engine with aluminum cylinder heads and cylinder block. Lightweight and powerful, the aluminum V8 also spawned a turbocharged version, (only in the 1962-63 Oldsmobile Cutlass version), the first ever offered in a passenger car. It became the basis of a highly successful cast iron V6 engine, the Fireball. The all-aluminum engine was dropped after the 1963 model year, but was replaced with a very similar cast-iron engine.
[edit] 215
- See also Rover V8 engine
GM experimented with aluminum engines starting in the early 1950s, and work on a production unit commenced in 1956. Originally intended for 180 in³ (2.9 L) displacement, Buick was designated by GM as the engine design leader, and decided to begin with a larger, 215 in³ (3.5 L) size, which was deemed ideal for the new "senior compact cars" introduced for the 1961 model year. This group of cars was commonly called the BOP group or A-bodies.
The 215 had a 4.24 in (107.7 mm) bore spacing, a bore of 3.5 in (88.9 mm), and a stroke of 2.8 in (71.1 mm), for an actual displacement of 3533 cc. The engine was the lightest mass-production V8 in the world, with a dry weight of only 318 lb (144 kg). It was standard equipment in the 1961 Buick Special.
Oldsmobile and Pontiac also used the all-aluminum 215 on its mid-sized cars, the Oldsmobile F-85 and Pontiac Tempest. However the Oldsmobile version of this engine, although sharing the same basic architecture, had cylinder heads designed by Oldsmobile engineers, and was produced on a separate assembly line. Among the differences between the Oldsmobile and Buick versions, it was somewhat heavier, at 350 lb (159 kg). The design differences were in the cylinder heads: Buick used a 5-bolt pattern around each cylinder where Oldsmobile went to a 6-bolt pattern. The 6th bolt was added to the intake manifold side of the head, one extra bolt for each cylinder. This was supposed to alleviate the head-warping problems that came about on the higher compression ratio versions. Later Rover versions of the aluminum block and subsequent Buick iron small blocks (300, 340 and 350) went to a 4 bolt per cylinder pattern.
At introduction, Buick's 215 was rated 150 hp (112 kW) at 4400 rpm. This was raised soon after introduction to 155 hp (116 kW) at 4600 rpm. 220 ft·lb (298 N·m) of torque was produced at 2400 rpm with a Rochester 2GC two-barrel carburetor and 8.8:1 compression ratio. A mid-year introduction was the Buick Special Skylark version, which had 10.25:1 compression and a four-barrel carburetor, raising output to 185 hp (138 kW) at 4800 rpm and 230 ft·lb (312 N·m) at 2800 rpm.
For 1962, the four-barrel engine increased compression ratio to 11.0:1, raising it to 190 hp (142 kW) at 4800 rpm and 235 ft·lb (319 N·m) at 3000 rpm. The two-barrel engine was unchanged. For 1963 the four-barrel was bumped to an even 200 hp (149 kW) at 5000 rpm and 240 ft·lb (325 N·m) at 3200 rpm, a respectable 0.93 hp/in³ (56.6 hp/liter).
Unfortunately, the great expense of the aluminum engine led to its cancellation after the 1963 model year. The engine had an abnormally high scrap ratio due to hidden block-casting porosity problems, which caused serious oil leaks. Another problem was clogged radiators from antifreeze mixtures incompatible with aluminum. It was said that one of the major problems was because they had to make extensive use of air gaging to check for casting leaks during the manufacturing process, and not being able to detect leaks on blocks that were as much as 95% complete. This raised the cost of complete engines to more than that of a comparable all cast-iron engine. Casting sealing technology was not advanced enough at that time to prevent the high scrap rates.
The Buick 215's very high power to weight ratio made it immediately interesting for automotive and marine racing. Mickey Thompson entered a stock-block Buick 215-powered car in the 1962 Indianapolis 500. From 1946 to 1962 there hadn't been a single stock-block car in this famous race. In 1962 the Buick 215 was the only non-Offenhauser powered entry in the field of 33 cars. Rookie driver Dan Gurney qualified eighth and raced well for 92 laps before retiring with transmission problems.
Surplus engine blocks of the Oldsmobile (6 bolt per cylinder) version of this engine formed the basis of the Formula One Repco V8 used by Brabham to win the 1966 and 1967 Formula One championship. No other American stock-block engine has won a Formula One championship.
Buick 215s have been engine swapped into countless sports cars including especially Chevrolet Vegas and MG sports cars. The engine remains well supported by enthusiast clubs, specialist parts suppliers, and by shops that specialize in these conversions.
The Buick 215 was used in a small sports car known as the Apollo from 1962 to 1963, and also in the Asardo 3500 GM-S show car.
Although dropped by GM in 1963, in January 1965 the tooling for the aluminum engine was sold to Britain's Rover Group to become the Rover V8 engine, which would remain in use for more than 35 years. GM tried to buy it back later on, but Rover declined, instead offering to sell engines back to GM. GM refused this offer.
[edit] 300
In 1964 Buick replaced the 215 with an iron-block engine of very similar architecture. The new engine had a bore of 3.75 in (95.5 mm) and a stroke of 3.40 in (86.4 mm) for a displacement of 300.4 cu. in. (4.9 L). It retained the aluminum cylinder heads, intake manifold, and accessories of the 215 for a dry weight of 405 lb (184 kg). The 300 was offered in two-barrel form, with 9.0:1 compression, making 210 hp (160 kW) @ 4600 rpm and Template:Convert/ft.lb @ 2400 rpm, and four-barrel form, with 11.0:1 compression, making 250 hp (190 kW) @ 4800 rpm and Template:Convert/ft.lb @ 3000 rpm.
For 1965 the 300 switched to a cast-iron heads, raising dry weight to 467 lb (212 kg), still quite light for a V8 engine of its era. The four-barrel option was cancelled for 1966, and the 300 was replaced entirely by the 350 in 1968.
The Apollo sports car, also known as the Vetta Ventura, used this engine.
[edit] 340
The 340 in³ (5.6 L) 340 was a stroked (to 3.85 in/97.8 mm) version of the 300. It had a two-barrel or four-barrel carburetor, the two barrel with compression of 9 to 1 comp. ratio rated at 220 hp (160 kW) at 4000 rpm and Template:Convert/ft.lb at 2400 rpm, and the four barrel with 10.25 to 1 comp ratio, rated at 260 hp (190 kW) @ 4000 rpm and Template:Convert/ft.lb @ 2800 rpm. It replaced the four-barrel 300 for 1966. It was produced only in 1966 and 1967, with the new Buick 350 taking its place after that.
[edit] 350
Buick adopted the popular 350 in³ (5.7 L) size with their final family of V8s. Although sharing the displacement of the Chevrolet Small-Block engine family, the Buicks were substantially different.
The Buick 350 V8 had a 3.80 in bore (like the 231) and retained the 3.85 in stroke of the 340. It was introduced in 1968 and produced through 1980.
The major differences of the Buick 350 when compared to other GM V8's are deep skirt block construction, higher nickel-content cast iron, external oil pump, under square bore sizing, 3.0" crank main journals, and 6.5" connecting rods. It is an extremely rugged and durable engine, and some of the design characteristics of the Buick 350 are found in modern GM engines such as the 231 V6, and Series I, II, and III 3800 V6's.
Of all the GM 350 in³ (5.7 L) engines, the Buick 350 has the longest stroke, which lends to making significantly more torque than any of the others. It also made the Buick 350 significantly wider - essentially the same width as the Buick big-blocks, which have the shortest stroke of the GM big-blocks. In fact, at a glance the Buick 350 is commonly mistaken for the 455 engine due to the oversized intake manifold atop the engine. The Buick 350 also shares an integrated aluminum timing cover as do most of the Buick small & big blocks which incorporates the oil pump mechanisms as well, leaving the oil filter exposed to oncoming air for added cooling.
The Buick 350 was used in the Jeep Gladiator and Wagoneer from 1968 to 1971.
[edit] Buick "Big-Block"
The company introduced a larger engine family to replace the "Nailhead" in 1967 and was produced through 1976.
[edit] 400
The 399.95 in³ (6.6 L) 400 was produced from 1967 to 1969. This engine had a bore of 4.04 in (102.6 mm) and a stroke of 3.90 in (99.1 mm). It was the only large V8 engine available for the A-body Buicks due to the GM cubic inch limit restriction prior to 1970. Most parts except the pistons interchange with the 430 and 455.
[edit] 430
The 429.69 in³ (7.0 L) 430 was produced from 1967 to 1969. This engine had a bore of 4.1875 in (106.4 mm) and a stroke of 3.90 in (99.1 mm). This engine was used in B-, C- and E-body (large body) Buicks. Most parts except the pistons interchange with the 400 and 455.
[edit] 455
The 455.72 in³ (7.5 L) 455 Buick V8 used a 4.312 in bore and 3.90 in stroke. It was produced from 1970 to 1976 and was based on the 400/430 V8. The regular Buick 455 was conservatively rated at 350 hp (261 kW) while the 455 Stage 1 was underrated at 360 hp (269 kW). The regular 455 could produce 410 to 420 hp (306 to 313 kW) while the Stage 1 produced 415 to 425 hp (310 to 317 kW). The regular 455 produced a rated Template:Convert/ft.lb of torque, more than any other muscle car engine. The hp was somewhat reduced in 1971, mainly due to the reduction in cylinder compression ratio in order to cope with the introduction new federal laws requiring new cars to use unleaded gasoline in an effort to reduce exhaust emissions, then, on paper, considerably reduced to approximately 250 hp (190 kW) starting in 1972, due to the new measurement of horsepower as SAE Net horsepower rather than a gross horsepower rating. Tightening emissions controls caused the engine to drop in power, a little at a time, through 1976. Most parts except the pistons interchange with the 400 and 430. The 455 was one of the first "thin-wall casting" engine blocks, and weighs significantly less than other engines of comparable size (for example, 150 lb (68 kg) less than a Chevrolet 454).
[edit] Non-Buick V8s powering Buick Vehicles
In the mid-1970s, GM was using powerplants sourced from various GM divisions where the Buick V8 was considered a factory option with the Buick 350 as the sole survivor, or in the worst case, for Buick vehicles where the 400/430/455 big blocks were phased out because of fuel economy/emission requirements.
[edit] 260
The 260 in³ (4.3 L) 260 was actually an Oldsmobile V8 engine.
[edit] 301
The 301 in³ (4.9 L) 301 was actually a Pontiac V8 engine.
[edit] 305
The 305 in³ (5.0 L) was actually a Chevrolet V8 engine.
[edit] 307
The 307 in3 (5.0L) was actually an Oldsmobile V8 engine.
[edit] 403
The 403 in³ engine used in Buicks was actually an Oldsmobile V8 engine.
[edit] References
- Peter C Sessler (1999). Ultimate American V8 Engine Data Book. MotorBooks/MBI Publishing Company. ISBN 0-7603-0489-0.
[edit] See also
From the 1950s through the 1970s, each GM division had its own V8 engine family. Many were shared among other divisions, but each design is most-closely associated with its own division:
- Cadillac V8 engine
- Chevrolet Small-Block engine
- Chevrolet Big-Block engine
- Oldsmobile V8 engine
- Pontiac V8 engine
GM later standardized on the later generations of the Chevrolet design:
- GM LT engine — Generation II small-block
- GM LS engine — Generation III/IV small-block
- List of GM engines