American automobile industry in the 1950s
The 1950s were pivotal for the American automobile industry. The post-World War II era brought a wide range of new technologies to the automobile consumer, and a host of problems for the independent automobile manufacturers. The industry was maturing in an era of rapid technological change; mass production and the benefits from economies of scale led to innovative designs and greater profits, but stiff competition between the automakers. By the end of the decade, the industry had reshaped itself into the Big Three, Studebaker, and AMC. The age of small independent automakers was nearly over, as most of them either consolidated or went out of business.
A number of innovations were either invented or improved sufficiently to allow for mass production during the decade: air conditioning, automatic transmission, power steering, power brakes, seat belts and arguably the most influential change in automotive history, the overhead-valve V8 engine. The horsepower race had begun, laying the foundation for the muscle car era.
Automobile manufacturing became the largest industry segment in the US, and the largest ever created; the US auto industry was many times larger than the automotive industries of the rest of the world combined.[2] By 1960, one-sixth of working Americans were employed directly or indirectly by the industry, but automation and imports eroded the need for such a large workforce within a couple of decades. The 1950s were the pinnacle of American automotive manufacturing and helped shape the United States into an economic superpower.[3]
Industry consolidation
[edit]At least 100 automobile companies had begun operations in Detroit by the beginning of the 20th century, but by the 1920s, the decade that gave rise to the Big Three, Ford was the largest.[4]
In American automobile parlance, the Big Three refers to General Motors (GM), Ford and Chrysler, each of which had bought out other companies to become conglomerates earlier in the 20th century. Together they accounted for 70 percent of auto sales.[4] Their combined market share grew over the following decades, declining only slightly after World War II, but the Big Three soon came to dominate the industry, claiming 94 percent of all automobile sales in 1955, 1956 and 1959.[5] The industry grew at a pace never before seen, and the broader industry soon employed one-sixth of the entire American workforce.[6]
In 1954, the smaller American Motors Corporation (AMC) was formed when Hudson merged with Nash-Kelvinator Corporation in a deal worth almost USD $200 million ($1.735 billion in 2013 dollars)[7] the largest corporate merger in U.S. history at that time.[citation needed] Other mergers with smaller independent manufacturers followed. Although AMC was moderately successful it was never sufficiently large to challenge any of the Big Three, and was eventually bought by Chrysler in 1987.[citation needed]
Studebaker had enjoyed earlier success and was the first independent automaker to produce an overhead valve V8 engine,[8] a 232.6 cubic inch, 120 hp unit, the first low-priced V8. The company's peak year was 1950, when it produced and sold 329,884 units.[9] Studebaker struggled during the first half of the decade. The cars had styling ahead of their time but were overpriced when compared to the offerings of the Big Three. Low sales and financial difficulties led to a merger with Packard in 1954, itself in financial trouble.[9] The new company, Studebaker-Packard Corporation, retired the Packard name in July 1958,[10][11] but continued marketing automobiles under the Studebaker name until 1966.[12]
Industry sales
[edit]This table shows the number of sales reported for each significant American automotive brand during the 1950s.
Company | Units Sold |
---|---|
Chevrolet | 13,419,048 |
Ford | 12,282,492 |
Plymouth | 5,653,874 |
Buick | 4,858,961 |
Oldsmobile | 3,745,648 |
Pontiac | 3,706,959 |
Mercury | 2,588,472 |
Dodge | 2,413,239 |
Studebaker | 1,374,967 |
Packard ('50–'58) | 1,300,835 |
Chrysler | 1,244,843 |
Cadillac | 1,217,032 |
Nash ('50–'57) | 974,031 |
DeSoto | 972,704 |
Rambler ('57–'59) | 641,068 |
Hudson ('50–'57) | 525,683 |
Lincoln | 317,371 |
Kaiser ('50–'55) | 224,293 |
Henry J ('51–'54) | 130,322 |
Edsel ('58–'59) | 108,001 |
Imperial ('55–'59) | 93,111 |
Willys ('52–'55) | 91,841 |
Continental ('56–'58) | 15,550 |
Frazer ('50–'51) | 13,914 |
Total (estimate) | 57,914,259 |
Some numbers are based on some estimates.[13] Total does not count the figures from smaller independent automakers.
A total of almost 58 million cars were produced and sold during the 1950s by the American manufacturers. Compared to the total population of the United States by the end of the decade, 179,323,175,[14] that is almost one new vehicle for every three living persons of all ages.
Production by year
[edit]Production numbers are sometimes conflicting, depending on how they are calculated and how vehicles are classified, but according to Ward's, the number of actual autos and duty trucks manufactured in North America for each year, including domestic production intended for export, are represented below:[15]
Year | Autos | Trucks | Total |
---|---|---|---|
1951 | 5,652,414 | 1,560,055 | 7,212,469 |
1952 | 4,652,275 | 1,384,372 | 6,036,647 |
1953 | 6,523,370 | 1,336,714 | 7,860,084 |
1954 | 5,815,945 | 1,101,773 | 6,917,718 |
1955 | 8,338,302 | 1,334,654 | 9,672,956 |
1956 | 6,203,027 | 1,213,948 | 7,416,975 |
1957 | 6,483,339 | 1,176,996 | 7,660,335 |
1958 | 4,567,518 | 943,275 | 5,510,793 |
1959 | 5,929,252 | 1,223,362 | 7,152,614 |
1960 | 7,055,293 | 1,286,466 | 8,341,759 |
Innovations
[edit]Many innovations were introduced or refined in the 1950s to make driving safer and more comfortable. Combined with lower prices and the growth of the suburbs, car ownership became ubiquitous and more people were driving longer distances. The new innovations fueled the automaker's philosophy of "dynamic obsolescence", forcing buyers to upgrade every few years and guaranteeing future sales.[2]
Automatic transmission
[edit]The first automatic transmissions were developed by General Motors during the 1930s and introduced in the 1940 Oldsmobile as the "Hydra-Matic" transmission.[16] They were incorporated into GM-built tanks during WW-II and, after the war, GM marketed them as being "battle-tested".[16] But it was not until the 1950s that they became dominant in American passenger cars.[16] One of the most influential was the GM Powerglide, the first automatic transmission in a low-cost automobile.[17] It was a two-speed automatic transmission that was in production from 1950 until 1973; variations are still used in drag racing owing to its simplicity and durability.[18] Ford initially offered GM's Powerglide for its Lincoln cars, as its own were not capable of handling the torque of the large V8s used in the vehicles, but soon after began production of its own inexpensive automatics. Before the end of the decade, more than half of new cars sold in America had automatic transmissions.[16]
Power windows
[edit]The first automatic power windows were developed by Packard in 1940. Each of the major American brands experimented with the technology, which was initially for luxury vehicles as a replacement for manually operated roll up windows. In the 1950s, these became widespread in American passenger cars.
Suspension design
[edit]As more roads were built and average travel speeds increased, power output increased from little more than 25 hp to more than 100 hp, compression rate increased from 3,89:1 to between 5,5:1 (in Ford, Studebaker, Willys-Overland, and others cars of other manufacturers and all post-world war II flathead engines) 7,5:1 (in Chevrolet and GMC overhead V8 small block valve engines and OHV Blue Flame straight-six engines) and car size increased, the inherent limitations of the pre-world war II suspension systems became obvious. Before the 1950s, most automobiles used a kingpin-based front suspension, which limited the degree of free movement and ultimately the smoothness of the ride, particularly at higher speeds. The transition to a ball joint type of suspension allowed greater flexibility in adjustment and the use of a variety of methods to support the weight of the car: leaf springs, coil springs and torsion bars. In combination with a shock absorber, the newer suspension designs made cars safer and more controllable at highway speeds, although at the cost of being slightly less durable than kingpin-based systems.[19]
As the 1950s approached, solid front axles had been generally replaced with front wheel independent suspension, smoothing the ride considerably and allowing for safer highway speeds. Along with others, the 1950 Studebaker Champion introduced independent front suspension into its product line,[20] with Cadillac marketing its new "Knee-Action" suspension in 1953 model year automobiles.[21]
The vast majority of American made vehicles continued to use simple live rear axles into the 1980s, but Americans could access four wheel Independent suspension technology on imported cars, like the 1952 Volkswagen Beetle, 1961 Jaguar E-Type, and 1968 Datsun 510.
In 1955, Packard introduced self-levelling air suspension as a standard equipment, a first for an American manufacturer, around the same time of the suspension advances of the 1955 Citroën DS. This replaced the coil springs with an air-filled bladder and torsion beam, but the American version proved troublesome and was discontinued.[22] Later that same year, Chevrolet, Buick, Oldsmobile, Ford, Mercury and Pontiac also introduced air suspension as an option for select models[23] but it was unreliable and was soon dropped. For Buick, the unpopular "Air Poise Suspension" contributed to the division's decline to fifth place in industry sales for 1958.[24] Decades later though it became a common and reliable method of suspension on luxury cars,[25] buses,[26] large transport trucks, and in some custom car applications.[27]
Chassis design
[edit]Unibody construction first went into mass-production in the 1934 Citroën Traction Avant, the 1936 Lincoln-Zephyr,[28] and the 1941 Nash 600 but it didn't come into popular use until the 1950s.[29] Unibody construction differs from the traditional "coachwork on chassis" design in that it integrates much of the framing into a single body using a number of pieces welded together into a single unit, thus distributing the load over the entire frame of the car. Chrysler claimed that unibody construction made its automobiles much stronger, more rigid, easy to handle, and quieter.[30]
Overhead Valve V8 engine
[edit]The more powerful V8 engine had been in mass production cars since the 1914 Cadillac, but it became more commonplace in the newer and heavier cars being built in the 1950s. Of particular significance was the American use of this technology in cars at a relatively modest price point.
Studebaker designed and manufactured its overhead valve Commander V-8 in-house. It was introduced in late December 1950 for the 1951 model year. It was originally planned with a 199 cubic inch displacement for use with high-octane gasoline supposedly to be available after World War II. Testing showed it produced less power than desired when using regular octane gasoline that remained available, so the displacement was increased to 232 cubic inches. The engine featured 18 bolts per cylinder head with forged crankshafts and connecting rods. It formed the design basis for all V-8 engines produced by Studebaker through the 1964 model year, including the record-setting Avanti supercharged R-series engines. During the 1950s the displacement was increased to 259 for 1955 model-year cars, 289 for 1956 model-year cars, and supercharged 289 for 1957 model-year cars. A 224 cubic inch version was also available.
Chrysler created its V-8 Firepower engine for the 1951 model year, using hemispherical combustion chambers. It featured 331.1 CID and produced an impressive 180 hp at 4000 rpm[31] While the name "Firepower" is no longer used, the name "Hemi" is still synonymous with Chrysler as a trademarked name for its engines, although they no longer use hemispherical combustion. The engines were larger and heavier than competing designs from GM and Ford owing to the larger cylinder heads required for hemispherical combustion. By 1959 Chrysler was producing a 375 hp, 413 CID engine for its Chrysler 300, triple the average horsepower of just a decade earlier.[32]
Ford used its V8 flathead engine in most of its line up through the beginning of the decade, even as it introduced the Ford Y-block engine and the similar but larger Lincoln Y-block V8 engine in 1952 for its luxury car lines.[33] These were soon phased out with the Ford Windsor engine in 1962, which still forms the basis for the current engine line. The Lincoln Y-block 317 cubic inch motor was rated at 160 hp, only slightly higher than the 336 cubic inch "Invincible 8" flathead design that it replaced. The Lincoln also came in 341 and 368 cubic inch displacement (CID) versions.[33] Like the GM motor, it used an overhead-valve design rather than the inblock-valve design shared by all flathead engines.
The Chevrolet small block 265 cubic inch engine was released in the 1955 model year and still the basis for the V8 engines in use by General Motors today.[34] The original 265 cubic inch engine with a two-barrel carburetor produced 162 hp,[35] while the four-barrel version in the 1955 Corvette produced 195 hp,[36] an amazing amount of power at the time. By 1957, the engine had been increased to 283 cubic inches,[37] including a fuel-injected version that produced 283 hp, the first engine to have a ratio of 1:1 horse power versus cubic inch displacement.[38]
AMC also developed its own overhead-valve V8 engine called the Gen-I, in 1956. The original was a 250 CID design and within a few years, a 287 CID and a 255 hp 327 CID version was produced.[citation needed]
Seat belts
[edit]Nash offered optional seat belts in some models by 1949, and in all models the following year.[39] Ford followed suit in 1955, but it was the Swedish company Saab who introduced seat belts as standard equipment, in the Saab GT 750 shown at the 1958 New York Motor Show.[40]
The first modern three-point seat belt, the CIR-Griswold restraint used in most consumer vehicles today, was patented in 1955 (US patent 2,710,649[41]) by the Americans Roger W. Griswold and Hugh DeHaven.[42] It was developed into its modern form by Swedish inventor Nils Bohlin (US patent 3,043,625[43]) for Volvo, who introduced the three-point safety device in 1959 as standard equipment. He demonstrated its effectiveness in a study of 28,000 accidents in Sweden; unbelted occupants sustained fatal injuries throughout the whole speed range, whereas none of the belted occupants were fatally injured at accident speeds below 60 mph (97 km/h), and no belted occupant was fatally injured if the passenger compartment remained intact.[44] American manufacturers followed their lead, and most automobiles had three-point front seat belts as standard equipment by 1964 and standard rear seat belts by 1968.[45]
Tires
[edit]Radial tires were invented by Michelin in 1948, and quickly became standard equipment on Michelin's auto making subsidiary Citroën.[46]
Use spread to 100% of the US auto population by the 1990s, following Consumer Reports' 1968 evaluation of competing technologies, noting the technology's superiority in tread life, safety, handling, and fuel economy.[47]
The 1968 Pontiac GTO offered optional OEM radial tires, but only for one year; they became standard on all 1970 Lincoln Continental Mark IIIs.[46]
Air conditioning
[edit]The 1953 Chrysler Imperial was the first production car in twelve years to offer air conditioning, following tentative experiments by Packard in 1940 and Cadillac in 1941.[48] In actually installing optional Airtemp air conditioning units to its Imperials in 1953, Chrysler beat Cadillac, Buick and Oldsmobile, who added it as an option later that year. The Pontiac Star Chief offered the first modern "underhood" design in 1954.[49] By 1960, air conditioning was a common dealer option and was installed in 20 percent of all automobiles on American roads.[50]
Steering linkage
[edit]BMW began to use precise rack and pinion steering systems in the 1930s, and many other European manufacturers soon adopted the technology. This is one critical missing technology from the decade, as American automakers did not adopt rack and pinion steering until production of the 1974 Ford Pinto.[51]
Steering power assistance
[edit]The first power-assisted steering on any type of vehicle dates to 1876, but little is recorded of the system. Other attempts were made to add power-assisted steering to motorized vehicles such as in the 1903 Columbia 5-ton truck and other heavy vehicles, but it was not until 1928 that a practical hydraulic power system was invented by Francis W. Davis. It was used on some armored vehicles and heavy trucks during World War II, but it took more than decades before the system was commercialized in passenger automobiles.[52]
Chrysler introduced the first commercially available passenger car power-steering system on the 1951 Chrysler Imperial, marketed under the name of Hydraguide. The option was available for less than $200.[53] General Motors followed suit the next year, offering it as an option for the 1952 Cadillac. Two years later, Cadillac was the first manufacturer to offer power-assisted steering as standard equipment.[52]
Brakes
[edit]Following their introduction by Duesenberg in 1920, all the major car makers were using unassisted hydraulic brakes by 1939; Ford was the last to switch from cable-manipulated systems. Power-assisted vacuum servo brakes had been invented in 1903, but did not become generally available as an option until the 1950s.[54] Self-adjusting brakes initially were offered on the 1957 Mercury and 1958 Edsel, and other manufacturers soon followed suit. Buick offered power brakes as standard equipment on several of its vehicles by the 1954 model year.[55]
American vehicles used drum brakes until the 1962 Studebaker Avanti – the first American production model with front wheel disc brakes as standard equipment. These are less prone to fade and are the current standard of design.
Entertainment
[edit]Until mid-decade, all radios in automobiles used vacuum tubes, but on April 28, 1955, Chrysler and Philco announced the development and production of the first all-transistor radio for an automobile.[56] Dubbed the Mopar model 914HR, it was jointly developed by Chrysler and Philco and offered as a $150 option for 1956 Imperial and Chrysler car models. Philco manufactured the radio exclusively for Chrysler at its Sandusky, Ohio plant.[57] A few years earlier in 1952, Blaupunkt had been the first company to offer FM radio for automobiles, although AM radio still dominated for years to come. Beginning in 1955, Chrysler offered a small phonograph called the Highway Hi-Fi in its luxury cars, which played proprietary seven-inch records. It proved unpopular and was soon discontinued.[58]
Concept cars
[edit]Auto design in the 1950s reflected the Atomic Age, the Jet Age and the Space Age.[59] Several technologies were pioneered in these prototypes, but most never reached production owing to their impracticality or other market forces. The concept cars ranged from the insightful to the bizarre and were often uncomfortable or non-functional. They were sometimes created to inspire the public's imagination or simply to promote the image of the company or the product line as a whole.[60]
The Ford Nucleon was a concept car announced by Ford in 1958.[61] The design lacked the capacity to house an internal combustion engine and was instead designed to be powered by a then nonexistent small nuclear power plant in the rear of the vehicle, similar to a submarine's.[62]
The Mercury XM-800 was one of many concept cars created by Ford.[63] It was introduced at the 1954 Detroit Auto Show, and featured forward-canted headlights, rear tailfins (a first for Ford at that time), and power seats, brakes, steering and other advancements. Like many similar cars of the time it was not operational, except for the electrical components such as the motorized trunk and front hood, although some of its innovations appeared later in the Lincoln Premiere.[64]
Harley Earl helped develop the General Motors Firebird, a series of three concept cars shown at Motorama auto shows in the 1950s. The Firebird I, II and III were part of a research project to study the feasibility of gas turbine engines and featured radical, aircraft-like styling.[65]
Notable failures
[edit]Named after Henry Ford's son, Edsel Ford, the Edsel made its debut as a separate car division on September 4, 1957, for the 1958 model year. The front grill was said by critics to look like "an Oldsmobile sucking on a lemon".[66] It ended up being a marketing blunder that not only cost Ford almost $250 million ($2169 million in 2013 dollars), but also turned the word Edsel into an enduring metaphor for failure.[67] The car sold poorly and production for the final 1960 model year had ceased by November 1959.[68]
In 1956, Ford tried to revive the Continental brand as a standalone line of ultra luxury automobiles, but abandoned the attempt after the 1957 model year, by which time around 3000 Mark II cars had been built. The failure was due in part to the price tag of $9695, an extraordinary amount of money for the time.[69] The Continental thereafter became a successful car model under Ford's Lincoln brand.
Kaiser,[70] Allstate, Frazer[11] and the economy/compact Henry J[71] product lines all ceased production before the end of the 1955 model year run, partly owing to their failure to produce and market a viable V8 engine in a marketplace increasingly focused on the clout (and horsepower) associated with a V8 power plant. In particular, the Henry J (named after Henry J Kaiser) sold an initially strong 82,000 units with its 68 hp, inline-four power plant and optional 80 hp inline-six, but starting at $1363, the consumer could buy a full-sized Chevrolet auto with an inline-6 for only $200 more than the Henry J inline-4, making it economically unappealing, and all three lines underpowered when compared to the offerings of the Big Three. The Allstate is an example of badge engineering, being a rebranded Henry J. It was sold exclusively at Sears, Roebuck and Company in 1952 and 1953.[9]
DeSoto[72] died a slow death in the 1950s owing to decreasing popularity and the 1958 recession.[73] Chrysler moved the DeSoto into the mainstream price range when it came out with the upper priced Imperial line, putting the Chrysler marque in direct competition with it. By the 1961 model year, the DeSoto was reduced to a single model and on November 18, 1960, Chrysler ended the DeSoto marque, just two weeks after the introduction of the 1961 models.[74] Chrysler's seemingly sudden announcement to discontinue the marque resulted in negative publicity as their advertising and press releases had given the impression the brand would be continued. It offered a $300 discount towards 1962 Chrysler vehicles to recent DeSoto purchasers as consolation. Added to the expense of changing signs at dealerships and other expenses, the estimated the cost of ending the marque was more than $2.2 million.[75]
Hudson produced automobiles for 49 years, until 1957. Hudson cars were very popular in NASCAR in the early 1950s, in particular the Hudson Hornet, now known as well for its prominence in the 2006 Pixar animated movie, Cars. Its early popularity was due to its sleek design, low center of gravity and excellent handling, but it failed to keep up with rest of the industry by mid-decade. The 1955 Hudson was actually a rebadged Nash auto with different trim. It were offered with a V8 in 1955, but it was too little to save the brand, which was discontinued two years later.[9]
Packard began the 1950s on a difficult note, as sales dropped from 116,248 in 1949 to an underwhelming 42,627 in 1950.[76] While its higher-end products offered advanced features such as automatic transmission as standard equipment, its overall body designs were considered dated. Four years after the 1954 merger with Studebaker, production under the Packard marque ceased as the company was unable to keep up with the advances and sales of the Big Three.[10][11]
Crosley produced cars from 1939 to 1952, including the only compact cars in an era of bigger and more powerful cars.[77] They were unique in that they were sold through the Crosley's network of appliance stores. Peak production was in 1948, with almost 29,000 vehicles produced, followed by a sharp drop off in demand,[78] resulting in an unsustainable loss of more than $1 million that year.[77] The automobiles sold for less than $1000, could exceed 50 miles per hour (80 km/h), and achieved up to 50 miles per gallon. In 1952, the company was sold to the General Tire and Rubber Company, which liquidated the assets and ended production of all Crosley automobiles.[78]
Muntz Car Company produced cars from 1950 through 1954 in Chicago.[79] Muntz was assisted by Frank Kurtis, who had earlier attempted to produce a sports car under the Kurtis Kraft marque (the Kurtis Kraft Sport, which sold just 36 units by 1950).[80] The company managed to produce only about 400 cars during 1951–1954. It was estimated by Muntz himself that his company lost about $1000 on each car, leading to its collapse after just four years in business.[81]
Influential events
[edit]A number of critical events changed the manufacturing environment during the decade, including two wars, cultural changes and economic difficulties, creating opportunity and challenges for the automobile industry.
War
[edit]World War II ended in September 1945, which allowed for the conversion of the economy to a peacetime economy, with excess industrial capacity and a high demand for new consumer goods by returning soldiers.[82]
The Cold War began after World War II and served to increase paranoia and concern over a nuclear war with the Soviet Union. Many Americans responded by escaping into a lifestyle of heavy consumerism,[83] which benefited automakers. President Dwight D. Eisenhower launched the Interstate Highway System by signing the Federal Aid Highway Act of 1956 into law. Eisenhower gained an appreciation of the German Autobahn network as a necessary component of a national defense system while he was serving as Supreme Commander of the Allied forces in Europe during World War II.[84]
The Korean War officially began on June 25, 1950, and a ceasefire was signed three years later in July 1953, yet no official ending. For automakers in the early 1950s, this meant US government control over raw materials such as steel.[85] While not as strict as the rationing that was seen during World War II, the impact was obvious, with steel being rationed to the different manufacturers under government control, rather than by market forces. The National Production Authority (NPA) had the final say on what resources each company would be given. In 1952, it limited the industry to 4,342,000 cars, with General Motors (GM) given a quota of 41 percent of that total. The company exceeded its quota in the first three quarters, forcing it to close some production lines in the fourth.[85] These limitations continued until the NPA was shut down in October 1953.[86]
Cultural changes
[edit]The decade saw a shift in American culture due in part to suburbanization, the Interstate system, and the baby boom. The 1950s were centered in the post-war baby boom, with an average of about 4 million births annually throughout the decade. From 1946 to 1964, a total of about 77 million new "baby boomers" were born, dramatically increasing the demand for automobiles for the new families.[87] The new Interstate Highway system facilitated the migration to the suburbs.[88] Automobile ownership had once been considered a luxury but now had become a necessity, as well as a cultural symbol for independence and individuality.[89] Ever-larger families drove the demand for larger automobiles, and for the first time, many families owned more than one automobile.[90] New suburbs such as Levittown, Pennsylvania were rapidly being developed, fueled by the promise of new Interstates and expanding families.[87]
1952 steel strike
[edit]Although it lasted for only 53 days, the 1952 steel strike caused the National Production Authority (NPA) to limit the amount of steel available to automakers, and had a broad effect before and after the strike. During the run up to the strike, unemployment in Detroit jumped to 8.3 percent in December 1951, auto employment dropped to 600,000 a month later and soup kitchens were set up in Detroit. Auto employment dropped by another 100,000 during the strike, which ended on June 2, 1952. While the strike was for better wages for steel workers, many auto workers blamed their unions for layoffs. The auto manufacturers were accused of speeding up work during these period of heavy layoffs, which resulted in a number of wildcat strikes.[91]
Recession of 1958
[edit]The Recession of 1958 was in part due to dramatic declines in the automotive industry during 1957 and early 1958. It had been a record year for sales in 1955 with the industry selling almost 8 million automobiles, but this extraordinary surge in sales served to reduce demand in the following few years. Sales had declined to 6.1 million in 1957 and just 4.3 million by 1958, making 1958 the worst year for auto sales since World War II. Manufacturing had declined 47 percent by the end of the recession, and Michigan experienced 11 percent unemployment, the highest of any state at that time.[92]
Labor union activity
[edit]The 1950s mark the peak of union membership as a percentage of the total US workforce, with labor membership peaking at 35 percent of the nonagricultural workforce by mid-decade.[93] The United Auto Workers (UAW) was founded in 1935 and helped play a major role in reshaping the automotive industry after World War II. By 1954, almost all UAW workers had health coverage and other benefits that didn't exist in the automotive industry previously. Pension plans were established, as well as a Supplemental Unemployment Benefits fund, which supplemented employees unemployment insurance during periods of layoff.[94]
A series of pivotal strikes took place during the decade, including the 1950 Chrysler Strike which lasted 104 days between January and May and centered around the UAW's demand that Chrysler pay a pension to retired workers, as well as other benefits. A first for the UAW, the union paid striking workers benefits during the strike, dangerously depleting its cash reserves. In the end, Chrysler capitulated on the main issue, but not before the strike had disastrous consequences for the automaker. Chrysler ended the year with an 8 percent gain in sales over the previous year, compared to GM and Ford's gains of 38 percent and 47 percent respectively, costing Chrysler an estimated $1 billion in lost sales.[95]
Racial discrimination
[edit]During the 1950s, racial discrimination was common throughout America and the auto industry was not immune. African-Americans were typically offered only the lowest paying jobs or were outright denied employment as employers openly advertised for "white only" applicants. Workplace discrimination was not universal, but it was widespread and it was not until 1955 that listing racial preferences in job advertising became illegal under Michigan law. Still, hiring practices varied according to the individual plant managers, so some factories were relatively integrated while others had virtually no black employees.[96] African-Americans had made up 15 percent of the auto manufacturing workforce in 1945 increasing only slightly to 16 percent by 1960, even while blacks outnumbered whites in the city of Detroit. Although unions fought for the end of racial discrimination, manufacturers were free to openly discriminate in their hiring until the passage of the 1964 Civil Rights Act.[96]
Enduring models
[edit]A few automobiles introduced in the 1950s have had an impact that extends well beyond the decade. By being continuously recognized or reinvented, they have created a following of admirers that often spans multiple generations.
The Chevrolet Corvette was first introduced in 1953,[97] and as of the 2025 model year is still in production.[98] It has gone through eight major generations and still features a fiberglass body, a tradition since the original model rolled off the assembly line.[98] Originally, Chevrolet had expected to use fiberglass only for the concept car shown at Motorama and to use steel for production cars.[97] It has come with V8 engine as standard equipment every year since 1955 but used the Blue Flame inline six-cylinder engine for its first two years of production.[99] In 2012, Consumer Reports named it the best sportscar available in America.[100]
The Ford Thunderbird was introduced in 1955 and remained in production until 1997. Production resumed in 2002 and continued through the 2005 model year. There were eleven[101] or twelve[102] different generations during these time spans. Unlike the Corvette, the Thunderbird was not marketed as a sportscar, but rather as a personal luxury car.[102] The car changed dramatically in size during these production periods, sometimes having a back seat and other times not.[102]
Chrysler produced the first of its 300 series automobiles for the 1955 model year, whereby they added a letter to the model name for each year.[103] This lettering scheme was continued until 1965, but at the same time they began producing the "non-letter series" automobiles for the 1962 model year, so there are three years with overlapping model names of different vehicles. The non-letter models were produced through the 1971 model year.[103] It was not until 1979 that Chrysler began using the "300" name again, as a rebadged Cordoba for the latter half the model year. It would be 20 more years before they again used the name, this time for the Chrysler 300M, which was produced for the 1998 through 2004 model years. Finally, in the 2005 model year, the Chrysler 300 nameplate was revived once again and remained until the end of production in 2023.[103]
See also
[edit]- 1950s American automobile culture
- History of the automobile
- Timeline of motor vehicle brands
- Tri-Five
- History of Chrysler
- History of General Motors
- History of Ford Motor Company
- List of defunct automobile manufacturers of the United States
- Category:1950s cars
References
[edit]Notes
- ^ Genat, Robert (2003). Original Chevrolet, 1955, 1956, 1957 – The Restorer's Guide. Motorbooks International. p. 66. ISBN 0-7603-1548-5. Retrieved May 1, 2013.
- ^ a b "The Fabulous 1950s Cars – Here is Their Story". anythingaboutcars.com. Archived from the original on October 15, 2012. Retrieved October 16, 2012.
- ^ Ikuta, Yasutoshi (2000). Cruise O Matic: Automobile Advertising of the 1950s. MotorBooks International. p. 18. ISBN 978-0-8118-2777-5.
- ^ a b Drowne, Kathleen Morgan; Huber, Patrick (2004). Nineteen Twenties. Greenwood Press. p. 245. ISBN 0-313-32013-6. Archived from the original on August 17, 2021. Retrieved April 22, 2013.
- ^ Rubenstein, James M. (2001). Making and Selling Cars: Innovation and Change in the U. S. Automotive Industry. The Johns Hopkins University Press. p. 188. ISBN 978-0-8018-8853-3. Retrieved April 22, 2013.
- ^ Sugrue, Thomas J. "Motor City: The Story of Detroit". Gilder Lehrman Institute of American History. Archived from the original on October 14, 2012. Retrieved October 15, 2012.
- ^ Cranswick (2011), p. 5.
- ^ Genat & Newhardt (2007), p. 306.
- ^ a b c d Genat & Newhardt (2007), p. 165.
- ^ a b "Packard History – 1945 – 1984". Studebaker-info.org. Archived from the original on March 13, 2014. Retrieved April 30, 2013.
- ^ a b c Genat & Newhardt (2007), p. 166.
- ^ Foster, Patrick. "Studebaker's Final Days". Archived from the original on June 16, 2013. Retrieved April 30, 2013.
- ^ Genat & Newhardt (2007), p. 320.
- ^ "US Population 1960" (PDF). US Census. 1961. Archived (PDF) from the original on December 5, 2020. Retrieved October 16, 2012.
- ^ "North America Car and Truck Production, 1951–2012". Wards Auto. March 5, 2013. Archived from the original on April 14, 2012. Retrieved April 25, 2012.
- ^ a b c d Severson, Aaron (May 29, 2010). "Hydra-Matic History: The First Automatic Transmission". ateupwithmotor.com. Archived from the original on June 16, 2012. Retrieved October 28, 2012.
- ^ Genat & Newhardt (2007), p. 69.
- ^ "1953 Powerglide Transmission with Automatic Shift". 1950 – 1953 Chevrolet Powerglide Automatic Transmission Repair Manual. oldcarmanualproject.com. Archived from the original on August 13, 2011. Retrieved April 23, 2013.
- ^ Joseph, Matt (2005). Collector Car Restoration Bible: Practical Techniques for Professional Results. Krause Publications. p. 254. ISBN 978-0-87349-925-5. Retrieved October 14, 2012.
- ^ Gunnell (2004), p. 230.
- ^ Gunnell (2004), p. 27.
- ^ Genat & Newhardt (2007), p. 42.
- ^
Luckett, Hubert (January 1958). "The Truth About Air Springs". 172 (1): 108. Retrieved April 25, 2013.
{{cite journal}}
: Cite journal requires|journal=
(help) - ^ Adler (1996), p. 89.
- ^ Sclar, Deanna (2009). "16:Steering and Suspension Systems Smooth the Way". Auto Repair For Dummies. Wiley Publishing, Inc. p. 309. ISBN 978-0-7645-9902-6.
- ^ Vuchic, Vukan R. (2007). Urban Transit Systems and Technology. John Wiley and Sons, Inc. p. 229. ISBN 978-0-471-75823-5.
- ^ Noel, Leah (2004). Four Wheeler Chassis and Suspension Handbook. MotorBooks International. p. 103. ISBN 0-7603-1815-8.
- ^ "The Designs of John Tjaarda Result in the 1936 Lincoln Zephyr". The Old Motor. December 27, 2014. Archived from the original on March 14, 2016. Retrieved February 28, 2015.
- ^ Genta, Giancarlo; Morello, L. (2009). The Automotive Chassis: Volume 1: Components Design. Springer. p. 38. ISBN 978-1-4020-8674-8. Retrieved October 14, 2012.
- ^ Chrysler Corp. (October 12, 1959). "Chrysler advertisement". Life Magazine. Vol. 47, no. 15. p. 157. Retrieved April 25, 2013.
- ^ Robinson (2006), p. 15.
- ^ Gastonbury (2004), p. 18.
- ^ a b Sessler, Peter C. (2010). "13". Ultimate American V-8 Engine Data Book (2nd ed.). MBI Publishing Company. pp. 134–136. ISBN 978-0-7603-3681-6. Retrieved April 25, 2013.
- ^ Mueller (2005), p. 10.
- ^ "Chevy Corvette 1955 Technical Specifications". Unique Cars and Parts. Archived from the original on May 13, 2013. Retrieved April 23, 2013.
- ^ Mueller (2005), p. 35.
- ^ Mueller (2005), p. 19.
- ^ Mueller (2005), p. 73.
- ^ Gunnell (2005), p. 162.
- ^ "The man who saved a million lives: Nils Bohlin – inventor of the seat belt – Features, Gadgets & Tech". The Independent. London. August 19, 2009. Archived from the original on February 21, 2010. Retrieved December 8, 2011.
- ^ U.S. patent 2,710,649
- ^ Andréasson, Rune; Claes-Göran Bäckström (2000). The Seat Belt : Swedish Research and Development for Global Automotive Safety. Stockholm: Kulturvårdskommittén Vattenfall AB. pp. 15–16. ISBN 91-630-9389-8.
- ^ U.S. patent 3,043,625
- ^ Nils I. Bohlin (1967). A Statistical Analysis of 28,000 Accidents with Emphasis on Occupant Restraint Value. 11th Stapp Car Crash Conference. Society of Automotive Engineers. doi:10.4271/670925. SAE Technical Paper 670925. Archived from the original on November 6, 2013. Retrieved April 26, 2013.
- ^ Ayars, Patti J. (2009). The Art of Leading Transformational Change. AuthorHouse. p. 17. ISBN 978-1-4490-2605-9. Retrieved May 3, 2013.
- ^ a b Kraus, James autouniversum.com Michelin and the Birth of the Radial Tyre Archived July 6, 2015, at the Wayback Machine July 3, 2011 Retrieved July 23, 2015
- ^ Sull, Donald FROM COMMUNITY OF INNOVATION TO COMMUNITY OF INERTIA: THE RISE AND FALL OF THE U.S. TIRE INDUSTRY Page 11 Archived August 7, 2015, at the Wayback Machine Harvard Business School "The August 1968 Consumer Reports awarded its top two spots to radial tires and documented the new technology’s longer life, increased safety, handling and economy relative to bias tires. (Consumer Reports, 1968)" Retrieved July 23, 2015.
- ^ Langworth, Richard M. (1994). Chrysler and Imperial: The Postwar Years. Motorbooks International. ISBN 0-87938-034-9.
- ^ Gunnell (2005), p. 222.
- ^ Nash, Gerald D. (1999). The Federal Landscape: An Economic History of the Twentieth-century West. University of Arizona Press. p. 59. ISBN 0-8165-1863-7. Archived from the original on March 7, 2021. Retrieved April 24, 2013.
- ^ "Rack and Pinion Steering | Hemmings Motor News". Archived from the original on July 10, 2015. Retrieved July 24, 2015.
- ^ a b Schultz, Mort (May 1985). "Steering: A Century of Progress". Popular Mechanics. 162 (5): 52. Retrieved April 25, 2013.
- ^ Clymer, Floyd (March 1951). "The Owner's Report on the '51 Chrysler". Popular Mechanics. 176 (3): 102. Archived from the original on March 25, 2012. Retrieved April 25, 2013.
- ^ "Hitting the Brakes: A History of Automotive Brakes". Second Chance Garage. Archived from the original on February 24, 2013. Retrieved October 14, 2012.
- ^ Gunnell, John (2004). Standard Catalog of Buick 1903–2004. Krause Publications / KP Books. pp. 85–87. ISBN 0-87349-760-0. Retrieved April 25, 2013.
- ^ "Chrysler Promises Car Radio With Transistors Instead of Tubes in '56". Wall Street Journal. April 28, 1955. p. 1.
- ^ "Chrysler Heritage – 1950–1959". Walter P. Chrysler Museum. Archived from the original on April 16, 2013. Retrieved April 28, 2013.
- ^ Lendino, Jamie (February 10, 2012). "The History of the Car Stereo". PC Magazine. Archived from the original on June 17, 2013. Retrieved April 28, 2013.
- ^ Robinson (2006), p. 6-7.
- ^ Hinckley, Jim; Robinson, Jon (2005). The Big Book of Car Culture: The Armchair Guide To Automotive Americana. MBI Publishing Company LLC. pp. 113–115. ISBN 978-0-7603-1965-9. Retrieved April 23, 2013.
- ^ Berger, Michael L. (2001). The automobile in American history and culture: a reference guide. Greenwood Publishing Group. p. 110. ISBN 0-313-24558-4. Retrieved April 23, 2013.
- ^ Bellows, Alan (August 27, 2006). "The Atomic Automobile". damninteresting.com. Archived from the original on November 3, 2008. Retrieved January 8, 2011.
- ^ "Concept Cars". Lilesnet.com. Archived from the original on November 25, 2012. Retrieved April 24, 2013.
- ^ Owen, Richard. "1954 Mercury Monterey XM-800". Archived from the original on October 29, 2021. Retrieved April 24, 2013.
- ^ Bowman, Bill. "Firebird II". General Motors Heritage Center. Archived from the original on May 23, 2013. Retrieved April 24, 2013.
- ^ Taylor III, Alex (June 21, 2011). "10 ugliest cars from the 1950s". CNN. Archived from the original on May 17, 2012. Retrieved April 29, 2013.
- ^ Segall, Grant (March 12, 1985). "Mr. Edsel The Edsel Was Roy Brown's Baby. He Lovingly Designed It And Then Stood By While The Public Snubbed His Work. But He Didn't Let One Bomb Ruin His Entire Career". SunSentinel. Archived from the original on May 27, 2013. Retrieved April 30, 2013.
- ^ Genat & Newhardt (2007), p. 134.
- ^ Genat & Newhardt (2007), p. 94.
- ^ Genat & Newhardt (2007), p. 192.
- ^ Genat & Newhardt (2007), p. 168.
- ^ Genat & Newhardt (2007), p. 198.
- ^ Genat & Newhardt (2007), p. 81-82.
- ^ "DeSoto History". Chrysler Corporation. Archived from the original on June 16, 2013. Retrieved April 28, 2013.
- ^ Hyde, Charles K. (2003). "The Late 1950s: Exit DeSoto, Enter Valiant". Riding the Roller Coaster: A History of the Chrysler Corporation. Wayne State University Press. pp. 179–181. ISBN 0-8143-3091-6. Retrieved April 28, 2013.
- ^ Genat & Newhardt (2007), p. 266.
- ^ a b McClure, Stern & Banks (2008).
- ^ a b Genat & Newhardt (2007), p. 164.
- ^ Flory Jr., J. Kelly (2008). American Cars 1946–1959. McFarland & Coy. p. 1016. ISBN 978-0-7864-3229-5.
- ^ Hitze, Ed (1974). The Kurtis-Kraft Story (Paperback). Interstate Printers. ASIN B0015MFQZG.
- ^ David Lillywhite, ed. (2003). The Encyclopedia of Classic Cars (Hardcover ed.). Thunder Bay Press. ISBN 978-1-57145-990-9.
- ^ Genat & Newhardt (2007), p. cover.
- ^ Greenwood Publishing Group (2006). Lesson Plans for Daily Life Through History: 50 History Dbq's. Greenwood Publishing Group. p. 85. ISBN 0-313-33765-9.
- ^ Petroski, Henry (2006). "On the Road". American Scientist. 94 (5): 396–399. doi:10.1511/2006.61.396. ISSN 0003-0996. Archived from the original on February 20, 2013. Retrieved April 27, 2013.
- ^ a b Gunnell (2005), p. 11.
- ^ "Records of the National Production Authority [NPA]". U.S. Office of Labor. Archived from the original on November 3, 2012. Retrieved November 9, 2012.
- ^ a b "The 1950s". The History Channel. Archived from the original on June 15, 2013. Retrieved April 23, 2013.
- ^ Vebell, Ed (1958). "Popular Mechanics". Popular Mechanics Magazine. Hearst Magazines: 144. ISSN 0032-4558. Retrieved December 2, 2012.
- ^ "The Geography of Transport Systems – The Interstate Highway System". Hofstra University. Archived from the original on June 21, 2012. Retrieved October 14, 2012.
- ^ Gunnell (2005), p. 25.
- ^ Stromquist, Shelton (2008). Labor's Cold War: Local Politics in a Global Context. University of Illinois Press. pp. 241–242. ISBN 978-0-252-07469-1. Retrieved April 23, 2013.
- ^ McMlenahan Jr., William M.; Becker, William H. (2011). Eisenhower and the Cold War Economy. JHU Press. pp. 85–86. ISBN 978-1-4214-0265-9. Retrieved April 22, 2013.
- ^ Arnesen, Eric (2006). Encyclopedia of U.S. Labor and Working-Class History. CRC Press. p. 1248. ISBN 978-0-415-96826-3. Archived from the original on June 23, 2013. Retrieved October 20, 2012.
- ^ "UAW History – 1945–1959: The Homefront". United Auto Workers. Archived from the original on April 26, 2013. Retrieved April 25, 2013.
- ^ Jefferys, Steve (1985). Management and managed:Fifty Years of Crisis at Chrysler. Cambridge University Press. pp. 115–120. ISBN 0-521-30441-5.
- ^ a b Sugrue, Thomas J. (1996). The Origins of the Urban Crisis: Race and Inequality in Postwar Detroit. Princeton University Press. pp. 95–106. ISBN 0-691-05888-1.
- ^ a b Leffingwell, Randy (2003). Corvette: 50 years. MBI Publishing company. p. 75. ISBN 0-7603-2006-3. Retrieved April 25, 2013.
- ^ a b Kurczewski, Nick (January 19, 2012). "Caught Testing: 2014 Chevrolet Corvette C7 – Spy Shots". Road and Track magazine. Archived from the original on April 20, 2013. Retrieved April 25, 2013.
- ^ "Corvette History". Corvette Performance Experts. Archived from the original on May 4, 2013. Retrieved April 25, 2013.
- ^ "2012 Annual Auto Issue: Best and worst road test scores". Consumer Reports. February 27, 2012. Archived from the original on October 31, 2012. Retrieved April 25, 2013.
- ^ Gunnell, John (2007). Standard Catalog of Ford – 4th Edition. Krause Publications. pp. 262–333. ISBN 978-0-89689-615-4. Retrieved April 25, 2013.
- ^ a b c "Ford Thunderbird History". Edmunds. Archived from the original on June 3, 2013. Retrieved April 25, 2013.
- ^ a b c "Chrysler 300 History". Edmunds. Archived from the original on November 11, 2016. Retrieved April 25, 2013.
Bibliography
- Adler, Dennis (1996). Fifties Flashback, The American Car. Motorbooks International Publishers & Wholesalers. ISBN 0-7603-0126-3. Archived from the original on October 22, 2016. Retrieved September 27, 2016.
- Cranswick, Marc (2011). The Cars of American Motors: An Illustrated History. McFarland & Company, Inc. ISBN 978-0-7864-4672-8. Retrieved April 24, 2013.
- Gastonbury, Jim (2004). The Ultimate Guide to Muscle Cars. Chartwell Books, Inc. ISBN 978-0-7858-2694-1.
- Genat, Robert; Newhardt, David (2007). American Cars of the 1950s. Publications International, Ltd. ISBN 978-1-4508-0642-8.
- Gunnell, John (2004). Standard Guide To 1950s American Cars. Krause Publications. ISBN 0-87349-868-2. Archived from the original on October 29, 2021. Retrieved February 20, 2021.
- Gunnell, John (2005). American Cars of the 1960s: A Decade of Diversity. Krause Publications. ISBN 978-0-89689-131-9.
- McClure, Rusty; Stern, David; Banks, Michael A. (2008). Crosley: Two Brothers and a Business Empire That Transformed the Nation. Ternary Publishing LLC. ISBN 978-1-57860-322-0.
- Mueller, Mike (2005). Chevy's Small Block V-8: Five Decades of Power and Performance. National Street Machine Club. ISBN 978-1-58159-279-5.
- Robinson, Jon G. (2006). Standard Catalog of 1950s Chrysler. Krause Publications. ISBN 978-0-89689-249-1.
External links
[edit]- The Fabulous 1950s Cars – Here is Their Story
- Top Ten Concept Cars of the 1950s
- Tour of the GM Heritage Center – GM Firebird I, II and III. (YouTube)
- Henry Ford Museum
- Walter P. Chrysler Museum
- GM Heritage Center
- Rambler Ranch Museum