Monday, February 27, 2023

Map: A National Network of EV Corridors

 


How interesting!  The shift to EV automobility has a long way to go. Will the adoption of the EV just attenuate the divide into the two Americas? Money is now flowing for the development of this "2nd Interstate Highway System."  In the very long run, how will the establishment of fast charging stations lead to population shifts and demographic changes? Will consumers want to wait 40 minutes or stand in a queue?  Will Internal Combustion Engine powered cars "gas and go." Will the new stations feature food, perhaps some entertainment, and other ways to kill time while waiting. What about the communities passed by? It sure looks like an East  Coast/ West Coast phenomenon with the exception of Texas, at least in early stages of development. Can the electric grid keep up with the highways?  

China is going to build more coal electric plants. Nuclear takes a decade or more to build.  We need a parallel rush to build nuclear plants, in my opinion, to get prepared for 2040.















Thursday, February 23, 2023

Car Clubs in California During the 1950s

 



Taken from a Facebook post, car clubs painted on the side of a hill, Chatsworth, CA. Car Clubs are a topic worthy of study if we are to fully understand the the history of Golden Age of the automobile  during the 1950s.  Occasionally one might find ephemeral literature on one club or another -- I have seen a history of a club from Middletown, OH.  The topic is rich!  Start by searching newspaper indices!

Monday, February 20, 2023

A Young Third World Child Dreaming of Owning a Mercedes-Benz

 

What more needs to be said? Cars are universal objects of desire. What is the dream? The car or class mobility? What chance did this young man have?

Saturday, February 18, 2023

Another Mercedes-Benz 450 SL Advertisement: "Spoil Yourself"

 


Not much more to say here that I have not said before. This car is a roadster, but not a sports car.  It does not have a manual transmission. Lightness is not a attribute of this car. It is strong and safe, with numerous conveniences, very much unlike the traditional British sportscar. It is carefully engineered, particularly in terms of suspension.  It is built for the leisure class, for those who golf, go to the club, or to a formal gathering. It makes a statement about its owner -- successful, active, fashion conscious. And a car one can travel vast distances in without beating you up.


Mercedes-Benz 450 SL R107 Advertisement: "Freedom for Two"

 


Note the federalized bumpers -- so this is ad post 1973. Those bumpers made the car that much more safe, but really worked against the clean lines of the original design. Is the passenger a man or a woman -- I cannot tell! 

The ad touts the engineering design of the V-8. I don't believe that the engine is special. !981 and 81 SLs had single chain timing chains, and proved to be a disaster. The engine is not particularly powerful nor economical. Overall durable, perhaps. We'll find out, as mine has 141K on it!

The Mercedes-Benz 450 SL -- Secure, Serene, Understated

It w

 Conspicuous consumption and white privilege during a decade of stagflation, high unemployment, and two energy crises.  It was an object of desire -- although I like my R 107 because of engineering, build quality, and thoughtful ergonomics. I am trying to understand my attraction to this car. Perhaps because it represents some sort of success from a decade that was for me struggle. And somehow I came out of it fine, albeit years removed from the 1970s.

Thursday, February 16, 2023

Classic Mercedes-Benz Cars on the Ice at St. Moritz, February 24-25, 2023.



Mercedes-Benz 300 SL Roadster (W 198). Genre shot in winter with skis on a rear rack from 1959. (Photo index number in the Mercedes-Benz Classic Archives: 90212


 “The I.C.E. St. Moritz” showcases automotive classics in an extraordinary setting: A vast array of historic cars will be on show on frozen and snow-covered Lake St. Moritz on 24 and 25 February 2023. On the Friday, the stationary vehicles will be presented to the public and the Concours of Elegance jury in the “Parc Fermé”. They will then do dynamic laps on the ice on the Saturday.

Mercedes-Benz Classic starts with a C 111-II with V8 engine (1970) and a 300 SLS touring sports car (W 198, 1958). The drivers include former factory driver and current Mercedes-AMG brand ambassador Karl Wendlinger. The brand’s Heritage division is presenting a Mercedes-Benz 600 (W 100, 1963) to mark its sixtieth birthday and also a 300 SL Roadster (W 198, 1958), which will be on sale.

“Mercedes-Benz Classic is open to new things. This includes ‘The I.C.E’ in St. Moritz. The event showcases outstanding classic cars – in the middle of the cold season, when historic cars tend to stay in the garage. Mountains, snow, ice and hopefully sunshine will set the scene for the fresh concept.”
Marcus Breitschwerdt, Head of Mercedes-Benz Heritage

Circuit on 50-centimetre-thick ice

The name “The I.C.E.” officially stands for “International Concours of Elegance” and at the same time it refers to the circuit’s ice surface. The track only exists for three months of the year: When Lake St. Moritz has a layer of ice around 50 centimetres thick in winter. The oval course, including a covering of snow, is created on the lake. The venue is used for various events, including the sport of polo. At “The I.C.E.”, the vehicles compete in categories such as „Open Wheels“, „Barchettas on the lake“, „Le Mans 100“, „Concept Cars & One Offs“ und „Queens on Wheels“. A winner will be chosen in each of the categories. The Mercedes-Benz C 111-II with V8 engine will compete in the “Concept Cars & One Offs” class and the Mercedes-Benz 300 SLS (“Super Light Sport”) in the “Barchettas on the lake” class.

The history of the event goes back to the winter of 1985: At that time, a group of Scots and English discovered the staked-out racecourse on the frozen Lake St. Moritz as a track for their classic Bentleys. After more than 30 years, one of the spectators at the time took up the idea. This led to the successful trial run of “The I.C.E.” with sports cars in 2019. After a hiatus due to the pandemic, the “Ice Revue” has taken place with a full programme since 2022.

The Mercedes-Benz Classic Brand Ambassador at “The I.C.E.” 2023

Karl Wendlinger
born 20 December 1968 in Kufstein, Austria
Mercedes-Benz Classic is happy to entrust the former racing driver with exclusive models from its collection of around 1,000 vehicles. The AMG brand ambassador has a driving style that is fast, safe and kind to the cars. In addition to this, the now 54-year-old is considered a great conversationalist. In 1990, Wendlinger was part of the Mercedes-Benz Junior Team in the Sports Car World Championship together with Michael Schumacher and Heinz-Harald Frentzen. As a team mate of Jochen Mass and Michael Schumacher, he scored several victories in the Sauber-Mercedes. In 1993, Karl Wendlinger switched to Formula 1, where he was a driver for the team headed by Swiss national Peter Sauber.

The Mercedes-Benz Classic vehicles at “The I.C.E.” 2023

Mercedes-Benz 300 SLS Touring Sports Car (W 198), 1958
Use: dynamic (Saturday, 25 February) and static (Friday, 24 February)
The Mercedes-Benz 300 SLS (“Super Light Sport”) is a special edition of the 300 SL Roadster (W 198) for motor racing. Two examples of the touring sports car were built in 1957 for the American Sports Car Championship, as homologation of the production version of the new model for the “Standard Production” category in the 1957 season was not possible. In order to still have a chance in the only possible alternative racing category D, a production roadster was optimised to become the 300 SLS, which weighed just 970 kilograms and produced 173 kW (235 hp). That was 360 kilograms less and 15 kW (20 hp) more than the 300 SL Roadster. With the 300 SLS, factory-backed Paul O’Shea won the American Sports Car Championship in category D with a clear lead over the competition. He had already won the title in 1955 and 1956 with the 300 SL “Gullwing”. At “The I.C.E.”, Mercedes-Benz Classic is using an authentic replica of the original 300 SLS.

Technical data – Mercedes-Benz 300 SLS (W 198)
Use: 1957
Cylinders: 6/inline
Displacement: 2,996 cc
Output: 173 kW (235 hp) at 5,900 rpm
Top speed: 260 km/h

Mercedes-Benz C 111-II with V8 engine, 1970
Use: dynamic (Saturday, 25 February) and static (Friday, 24 February)
Mercedes-Benz presented the C 111 at the Frankfurt Motor Show (IAA) in September 1969. With its extreme wedge shape and gullwing doors, the research vehicle had a glass-fibre-reinforced plastic (GRP) body and was powered by a three-rotor Wankel engine with an output of 206 kW (280 hp). This futuristic sports car could reach a speed of up to 270 km/h. The following year, the revised version C 111-II was presented at the Geneva Motor Show, now with a four-rotor Wankel engine and 257 kW (350 hp). In this version, the C 111 accelerated from a standstill to 100 km/h in 4.9 seconds and had a top speed of 300 km/h. Despite numerous orders, the C 111 remained a purely experimental vehicle and never entered production. Mercedes-Benz instead went on to develop a series of record-breaking vehicles based upon it: the C 111-II D (1976) and the C 111-III (1977 to 1978), both with a five-cylinder diesel engine, and the C 111-IV (1979) with V8 spark-ignition engine and turbocharger. In 1970, the C 111-II was also the basis for a V8 variant with the standard M 116 engine (147 kW/200 hp) for drive comparisons with the Wankel sports car.

Technical data – Mercedes-Benz C 111-II with V8 engine
Production period: 1970
Cylinders: V8
Displacement: 3,499 cc
Output: 147 kW (200 hp) at 5,800 rpm

Mercedes-Benz 300 SL Roadster (W 198), 1958
Use: static
At the Geneva Motor Show in March 1957, Mercedes-Benz unveiled the 300 SL Roadster (W 198) as the successor to the 300 SL “Gullwing” Coupé of the same model series, which had made its debut in 1954. On a technical level, the open-top sports car was very much like the coupé, although the modified roll cage now allowed the installation of conventionally hinged doors. These were necessary for open-top driving and were more convenient when getting in and out. The chassis had also been evolved further: The single-joint swing axle with a lowered pivot point was used instead of the classic two-joint design, and the 300 SL Roadster had a compensating spring for the first time. From autumn 1958 onwards, the Roadster was also available on request with a detachable hardtop. It was from the standard 300 SL Roadster that Mercedes-Benz engineers developed the 300 SLS racing variant with which Paul O’Shea won Category D of the American Sports Car Championship in 1957. This completed the circle, as the 300 SL was based on the racing car of the same name (W 194), which was used very successfully in motorsport in the 1952 season. In 1961 the 300 SL Roadster was provided with disc brakes, and in 1962 with a cast-aluminium crankcase. Production of the sports car continued until 1963. A total of 1,858 examples of the highly exclusive sports car were built over seven years. Today it is one of the most sought-after classics.

Technical data – Mercedes-Benz 300 SL Roadster (W 198)
Production period: 1957 to 1963
Cylinders: 6/inline
Displacement: 2,996 cc
Output: 158 kW (215 hp) at 5,800 rpm
Top speed: up to 242 km/h

Mercedes-Benz 600 (W 100), 1963
Use: static
“The ‘Grand Mercedes’ 600 – the exclusive vehicle of great prestige”: With this headline, the Mercedes-Benz press release for the premiere in September 1963 at the International Motor Show (IAA) in Frankfurt am Main positioned the Mercedes-Benz 600 among the leaders in the automotive industry. Some of its highlights: the first V8 engine in a Mercedes-Benz car, performance on a par with a sports car, many hydraulically-controlled convenience features for seat adjustment, opening and closing of doors, windows and boot lid. Added to this were air suspension, power steering and a central locking system as well as an electronically-controlled heating and ventilation system. All things considered, the equipment was unique at the time and was considered state-of-the-art during that period. Internally known as the W 100, the luxury saloon held its position as the international benchmark of the top automotive category for almost two decades. During the 17-year construction period, 2,677 examples were built, 487 as Pullman versions. The V8 engine with a displacement of 6.3 litres produced 184 kW (250 hp). Buyers from all over the world opted for the “600”: Royal highnesses, heads of state and equally outstanding personalities from the worlds of business and show business.

Technical data – Mercedes-Benz 600 (W 100)
Production period: 1963 to 1981
Cylinders: V8
Displacement: 6,332 cc
Output: 184 kW (250 hp) at 4,000 rpm
Top speed: 205 km/h

Tuesday, February 14, 2023

Benz and Company Advertising Artwork, 1920s


The love affair with the automobile was and remains a global phenomenon. It had to be done before 1926, as Benz is still an independent firm and has not yet merged with Daimler. What is it trying to say?  The woman is hugging the car, as she would hug a man. The automobile remains a masculine object, hard and square. And she is dropping her skirt -- perhaps about to offer herself to the owner of the car, or the car itself? This is about joy, yet at the same time about the binding of one, as this woman will not be as mobile as she thinks.

  

Thursday, February 9, 2023

Milestones Mercedes-Benz Sindelfingen plant

 


Werk Sindelfingen der Daimler-Motoren-Gesellschaft. Luftaufnahme aus dem Jahr 1918. (Fotosignatur der Mercedes-Benz Classic Archive: A46205) // Sindelfingen plant of Daimler-Motoren-Gesellschaft. Aerial view from 1918. (Photo signature of the Mercedes-Benz Classic Archives: A46205)

Mercedes-Benz plant in Sindelfingen. Exterior view from May 1951. (Photo signature of the Mercedes-Benz Classic Archives: SI51679)


Mercedes-Benz plant in Sindelfingen. Photo of production from 1973, assembly conveyor in building 38. (Photo signature of the Mercedes

Milestones Mercedes-Benz Sindelfingen plant

  • 1915 Daimler Motoren Gesellschaft (DMG) acquires 51 hectares of land in Sindelfingen for an aircraft factory and an automobile body plant.
  • 1916 Construction of the first aircraft assembly hall begins. The building still exists today.
  • 1917 Delivery of the first aircraft with Daimler engines from Sindelfingen.
  • 1918 The plant, previously under the management of Untertürkheim, becomes an independent operation.
  • 1918 The Untertürkheim body department begins moving to Sindelfingen.
  • 1919 Production of car bodies begins. The first vehicle is the Mercedes-Knight 16/45 hp.
  • 1919 Sindelfingen produces furniture as emergency products.
  • 1924 After a study trip to the USA, Wilhelm Friedle, who later became director of operations, became involved in modernising the body shop based on the model of the Ford Motor Company.
  • 1928 Conversion of the press shop from manual single-part production to series production with deep-drawing presses.
  • 1930s Introduction and restructuring of assembly line production.
  • 1946 The 170 V (W 136) is built as a flatbed, panel van and ambulance, from 1947 also as a four-door saloon. This marks the start of passenger car production after the Second World War II.
  • 1952 The 100,000th Sindelfingen passenger car since 1946 is built, a Mercedes-Benz 170 S (W 136).
  • 1953 Premiere of the Mercedes-Benz 180 (W 120) "Ponton" in Sindelfingen. First Mercedes-Benz passenger car with self-supporting body.
  • 1954 Start of production of the 300 SL (W 198), from 1955 also of the 190 SL (W 121).
  • 1959 Start of the first systematic crash tests in Sindelfingen.
  • 1962 The one millionth passenger car in post-war production from Sindelfingen leaves the assembly line: a Mercedes-Benz 220 SE "tail fin" (W 111).
  • 1966 Sindelfingen produces more than 200,000 passenger cars in one year for the first time
  • 1969 In May, for the first time the plant produces more than 1,000 vehicles a day produced at the plant.
  • 1971 2nd International ESV Conference in Sindelfingen, Mercedes-Benz presents the ESF 05 experimental safety vehicle.
  • 1972 Europe's first fully automatic robot transfer line goes into operation in the body shop
  • 1972 Production start of the 116 luxury class series, called "S-Class" for the first time.
  • 1976 Production capacity is to increase to 430,000 vehicles per year by 1986.
  • 1979 Partial automation of the production lines is introduced with the start of production of the S-Class 126 series.
  • 1981 Opening of the new customer centre for the personal collection of new vehicles.
  • 1994 Ground-breaking ceremony for a new development and preparation centre.
  • 1994 Kick-off for the nationwide switch to water-based body paints.
  • 1995 Opening of the world's first designo consulting centre.
  • 1998 Inauguration of the Mercedes-Benz Technology Center.
  • 2000 Inauguration of the most modern virtual reality centre in the automotive industry.
  • 2002 Opening of the Centre of Excellence for the luxury brands Maybach and SLR McLaren brands.
  • 2002 Transport by rail with closed car transport trains begins.
  • 2006 New start-up factory for prototype construction and next-generation vehicles.
  • 2009 Entry into plastics processing for body parts with the CL-Class rear lid of the C 216 series made of glass-fibre reinforced plastic (GFRP).
  • 2014 The production method of heat-assisted forming (HEF) is used for the first time in the start-up of the new S-Class Coupé.
  • 2014 Start of production of the Mercedes-AMG GT (model series 197).
  • 2015 Celebration of the centenary. The site has around 37,000 employees.
  • 2015 The 20 millionth vehicle is built in Sindelfingen, an S 500 e Plug-in Hybrid from the 222 series.
  • 2016 Opening of the Technology Centre for Vehicle Safety (TFS).
  • 2018 Starting signal for Factory 56 for the highest possible flexibility and efficiency.
  • 2020 Opening of Factory 56 and start of production of the new Mercedes-Benz S-Class (model series 223).
  • 2021 Start of production of the EQS (model series 297): the first electric luxury saloon from Factory 56.
  • 2022 Start of production of the latest generation of the GLC (model series 254) and opening of the Electric Software Hub

Tuesday, February 7, 2023

The Evolution of 20th Century Gas Station Architecture

 

Fill’er Up

            Of all the roadside structures erected during the golden age of two-lane highways, perhaps the most significant was the gas station. Gas stations and their architecture and design developed in a competitive market with the hopes of attracting the consumer through brand association. Indeed, the architecture of the gas station played a vital role in attracting the consumer.


Early 20th Century General Store. Typically, motorsists purchased 5 gallon cans of gasoline there.

            Initially, gasoline stations did not exist in the sense of featuring a curbside pump. Rather, workers filled gasoline containers and later transferred the gasoline to the automobile by hand. In 1905, a revolution took place in terms of gasoline dispensing as the Shell Oil Company opened its first true filling station in St. Louis, using a gravity-fed tank with a simple garden hose attached. In a few short years, the development of pumps made possible the first curbside stations. In their earliest years, these stations primarily existed in front of groceries, hardware stores, and other commonly-frequented businesses.

            Following the early success of the curbside pump, the gas station evolved into a dedicated structure featuring a shed-like profile. The shed housed offices and supplies, but this was anything but an aesthetically pleasing structure, and a call went out by civic-minded citizens for a more pleasing building. In response, houses developed as a compromise.

View of gas station with hipped roof located in Vassar, Michigan. Two gas pumps and several White Star gasoline signs in front of station. Log house with stone chimney on right with sign: "Office, Vassar Gas Co." One-story brick factory building behind station. Printed on front: "Plant of Vassar Oil & Gas Co., Vassar, Michigan, White Star distributor." Detroit Public Library.



            These house-type stations, frequently prefabricated, were large enough to contain an office, storage rooms, and restrooms. They were made of brick, stucco, and galvanized steel, and thus were relatively easy to maintain. And they were very much characteristic of the new gas stations of the 1920s. For example, in 1922, more than 200 of the 1,841 Shell gas stations included common design aspects, and these 200 stations accounted for 40 percent of Shell’s business.

            During the 1920s the house and then the house with canopy style became popular. By 1925, most gasoline stations were equipped with grease pits and car washing facilities. These bays allowed the station to offer an increasing number of services, mainly minor repairs. Thus stations added to their business, and the filling station was transformed into a service station. Houses could easily be adapted to accompany one or several bays.




            The house gas station design suggested a bond with the American family, and Pure Oil Company capitalized on this notion. Pure designed a cottage-type station complete with a chimney, a gabled roof, and flower boxes on the windows.

            Perhaps the most influential gas station design appeared on the scene during the Great Depression. This design, called the oblong box, developed as companies searched for functionality in station design. This layout gave the company the ability to sell tires, batteries, and accessories, referred to as the TBA line.

            Generally, this design featured a flat roof, plate glass, and an inexpensive porcelain enamel-looking facing. The design was a loose example of the International style, inspired by Walter Gropius and his Bauhaus School in Germany after World War I. Most notably, Walter Dorning Teague, a designer hired by the Texaco Company, made the oblong box a feature found in virtually every corner of American life. The Architectural Record reported that Teague’s stations featured “certain primary functional requirements [that] were obvious, such as trademark and color standardization, efficient layout for sales and servicing, adequate office and restroom space.” In sum, the oblong box design met the physical need of adapting a structure to a variety of lots and the primary psychological needs of comfort and convenience to the customer. The house and oblong box gas stations characterized one facet in the development of roadside structures prior to World War II. Certainly the appearance of tourist cabins and then motels would reflect another view of changes in structures just beyond the highway.


Shell Station near Lost Hills, CA


Friday, February 3, 2023

Federal and State Road Building in America during the 1920s and Early 1930s

 

Lincoln Highway Strip Map, 1921 (Library of Congress)

Further measures were needed after WWI, since the 2 million vehicles of 1915 had exploded to 10 million by 1920. Federal action was forthcoming with the passage of the Federal Highway Act of 1921, which granted aid for the construction of both interstate and inter-county highways.16 Matching funds were allocated to the states according to population, area, and mileage of rural and mail routes. State highway departments became responsible for much of the maintenance of these new roads, but benefited from federal monies that supported construction at $15,000 per mile.

From Wiki:

The Federal Aid Highway Act of 1921, also called the Phipps Act (Pub. L. 67–87, 42 Stat. 212), sponsored by Sen. Lawrence C. Phipps (R) of Colorado, defined the Federal Aid Road program to develop an immense national highway system. The plan was crafted by the head of the National Highway Commission, Thomas Harris MacDonald and was the first coherent plan for the nation's future roads. President Warren Harding signed the act into law on November 9, 1921.L. I. Hewes opened the Western Headquarters Office of the Bureau of Public Roads to administer federal-aid highway and direct federal highway construction programs in 11 western states, including Alaska and Hawaii. It provided federal 50–50 matching funds for state highway building up to 7 percent of roads statewide.[1] By the end of 1921, more than $75 million in aid had been given to the states.

In 1922, the Bureau of Public Roads commissioned Gen. John J. Pershing to draw up the Pershing Map for construction purposes and to give the government a clear understanding of which roads in the U.S. were the most important in the event of war. The "Pershing Map" was the first official topographic road map of the United States. From it, the Appalachian Trail from Maine to Georgia was begun in 1922. By 1923, the roads authorized by the act had been completed.

Two Lane Black Top, or Concrete if there is Money

The 1921 act resulted in employment for some 250,000 construction workers. Most significantly however, was the transformation of road building techniques. Until the early twentieth century, best practice road building meant the construction of macadam surfaces, derived from the work of early nineteenth century English engineers Loudon Macadam and Thomas Telford.17 Using small stones and the dust of these stones as a binder during a compaction process, road building had been gradually mechanized during the late nineteenth century with the introduction of steamrollers, rock crushers, graders and tractors. Macadam surfaces, however, while wholly adequate for bicycles, could not withstand heavy automobile and truck traffic. Attempts were made to tar the macadamized surface to improve its durability, but ultimately the widespread adoption of concrete and “black top” supplanted macadam roadways.

            The first concrete road surfaces were widely adopted in California beginning in 1910. Headed by Austin B. Fletcher, the California Highway Commission pioneered banked concrete thoroughfares and curbing. A key innovation was the development of the paving train, where trucks and large drum mixers supplied materials to spreaders, levelers, and finishers pulled along on rails. And while concrete had its critics, particularly those who argued that it was too expensive for rural roads, in the end it became the material of choice in road building in heavily trafficked areas.18 Alternatively, there was asphalt, and its plants also became larger and fed bituminous pavers that spread in lane widths a heated bituminous-aggregate mix.19

        By 1923, the Bureau of Public Roads, under the direction of Thomas H. MacDonald, planned a tentative network of arterial highways that included all cities of 50,000 or more. Some 350,000 miles of highways were envisioned, in which even numbers were designated for east-west routes and odd numbers for north-south.

            The question was how this ambitious internal improvements program would be funded, a critical one both in terms of future economic growth and national defense. As it turned out, the answer was to collect fees from registrations and license applications, and in part from gasoline taxes that began to be levied in 1919.20 Road mileage doubled between 1920 and 1930 and then doubled again between 1930 and 1940.

            Until the closed car became more popular in the mid-1920s, this pioneering stage of automobile and highway history was one of pure exhilaration, so well expressed by Drake Hokanson:

The breeze rushing through the open windshield of an automobile was stronger than that on a boat or in a buggy, and the hiss of moving air blended smoothly with the sound of a powerful motor. It carried the perfume of motoring; the smells of rubber, oil, and gasoline, and the scents of woodland, river, prairie, and sage. It was this wind with the smell of someplace else in it that urged the traveler on, that made it clear that you were on the road for somewhere.21

            By the mid-1920s, there were numerous interstate highways, although they were uneven in terms of surface quality and designated by name rather than by number. For example, the Dixie Highway, which connected travelers from Detroit to Florida, ended in Miami. Another road that ended in Miami was the Atlantic Coastal Highway, which began in Quebec City, Canada, and passed through New England, New York City, and Philadelphia. There was also the Capital Highway, starting in Washington D.C. and connecting the capitals of Virginia, North Carolina, and South Carolina. Another popular road was the Lee Highway, having its origins in New York City, passing through the District of Columbia, then running through Virginia, eastern Tennessee, Birmingham, Alabama, and then New Orleans, where it became part of the Robert E. Lee Transcontinental Highway that connected the Southern U.S. with San Diego and Los Angeles. Other routes went by name such as the Jackson Highway, the Jefferson Highway, and the Old Spanish Trail.22

            This network of privately-inspired interstate highways that had crisscrossed the nation had become so complex that in 1924 the American Association of State Highway Officials (AASHO) petitioned the United States Department of Agriculture to systematize the situation by instituting some kind of numbering system. The following year, the Joint Board of State and Federal Highway officials was created and within eighteen months came up with a solution. In November 1926, the joint board held a meeting at Pinehurst, North Carolina. In attendance were many prominent public officials representing national, state and local governments.

            Soon a plan was publicly announced. It called for the designation of all east-west routes with even numbers and all north-south routes with odd numbers. U.S. highways 10, 20, 30, and 40 stretched westward across the northern states, and highways 50, 60, 70, 72, 74, 78, 80 and 90 ran east-west through the southern states. Generally, the numbers given to north-south highways were lower than fifty, but at times these highways intersected, and thus the previous older interstate routes did not acquire only one number. For example, the Capital Highway for the most part became U.S. 1; the Atlantic Coastal Highway U.S. 17; the Dixie Highway, with dual routes through the South, became U.S. 41, U.S. 27, U.S. 25, and U.S. 441.

            Not only were the roads standardized in terms of the signs that governed its use, but in their physical nature. The key agency in creating uniformity was the Committee on Standards of the American Association of State Highway Officials. In 1928 that group mandated 10-foot wide lanes, 6-inch concrete pavement, 8-foot shoulders, and 1-inch highway crowns.

            By 1927, a new classification for the nation’s highways was in place, and the many routes that ran through the country were absorbed into the new national interstate network. National standardized black and white signs in the form of a shield emblazoned with the route number in the center replaced the colorful and regionally identifiable route markers that had at first marked the course of the many highways that had crossed the nation. Named highways, once so important, are now largely forgotten.

State Library of Louisiana
           

During the late 1920s, Louisiana was one state that whose drivers finally climbed out of the mud (or “gumbo”), and its history illustrates not only the fact that the automobile preceded road development but also that politics proved critical to the story.23 Like the rest of the nation, Louisiana witnessed an upsurge in car ownership beginning in the early 1920s. For example, in 1922, there were 122,000 motor vehicles registered in the state, but by 1924 that figure had risen to 178,000.24 In 1920, a state highway commission had been established, but it was poorly funded and staffed, and the state’s elite patrician leadership was conservative in raising the monies necessary to build a comprehensive state road system. Given the climatic and geographical difficulties associated with the state – for example, there were more than 5,000 streams and rivers in Louisiana – its citizens were limited in where they could take the new cars they had purchased. In Orleans Parish alone there were 43,000 vehicles, and yet there was no road to the east that connected New Orleans with the Mississippi Gulf Coast. The situation changed dramatically, however, with the coming of Huey Long to the Governor’s mansion in 1928. The “Kingfish’s” clever political maneuvering resulted in first raising the necessary state funds to build good roads, and then the will to build them throughout the state. Long hired some of the best highway engineers in the country, raised the gasoline tax and floated state bonds, and put more than 8,000 men to work in the process. In a 1929 Louisiana Highway Commission report, it was asserted that “Power Creates Wealth,” and that “Good Roads Throughout Louisiana Provide for a Wider Distribution of Power.” Furthermore,

The automobile has revolutionized transportation methods and eliminated distance. Combined with improved highways, the automobile has made friends and neighbors of us all, removed imaginary barriers and provided a sound foundation on which to build for happiness, prosperity, and permanent development.25

            During the Long administration, thousands of miles of improved roadways were constructed, but three projects stand out. First, east of New Orleans, the Chef Menteur Highway connecting New Orleans to Mississippi was completed. Secondly, the Airline Highway connecting New Orleans to Baton Rouge shortened the driving distance between the state’s major urban center of New Orleans and its capital of Baton Rouge.26 Thirdly, a landmark achievement was the erection of a bridge across the Mississippi River at Jefferson, west of New Orleans. The Huey Long Bridge, with four lanes for motor vehicle traffic and railroad tracks in the middle, remains an adventure to cross today. Yet at its dedication in late 1935, the bridge provided a critical connecting point for the Jefferson Highway, Old Spanish Trail, Louisiana Purchase Highway, Colonial Highway, Mississippi Scenic Highway, and the Pershing Highway.27

            Of all the highways with U.S. number designations, one, Route 66, truly stands out in American culture.28 Spanning from Chicago to Santa Monica, the “Mother Road,” was immortalized in John Steinbeck’s Grapes of Wrath. Its road food, typified by the fare served by the Big Texan restaurant outside of Amarillo, and roadside architecture, like the Wigwam Village Motel in Holbrook, Arizona, has given Route 66 a mystique without equal. Route 66 was the idea of Cyrus Steven Avery, a businessman from Tulsa, Oklahoma, who became president of the Associated Highways Association in 1921 and State Highway Commissioner in 1923. He perceptively understood that highways meant business and tourism, and that the better the highways the better the business. To this day, with the rise of nostalgia about the “Mother Road,” Route 66 is all about tourism. A journey down Route 66 takes one to a different time in American life, before McDonald’ s and fast food, before the homogeneity found on the interstate confronted travelers.29

            Nostalgia for the open road of the past, however, should not blind us to its historical realities. For one thing, Route 66 was known as “bloody” 66, because it was so dangerous and so many died on that road. And as Steinbeck so astutely described, it was a road not only leading to the opportunities awaiting the beleaguered upon reaching California, but also a place where opportunism, exploitation, and disappointment occurred. With dilapidated cars and worn out tires, fear was at the hearts of drivers and passengers alike, who out of a sense of survival became one with their rides:

            Listen to the motor. Listen to the wheels. Listen with your ears and with your hands on the steering wheel; listen with the palm of your hand on the gear-shift lever; listen with your feet on the floor boards. Listen to the pounding old jalopy with all your senses; for a change of tone, a variation of the rhythm that may mean – a week here? That rattle – that’s tappets. Don’t hurt a bit. Tappets can rattle till Jesus comes again without no harm. But that thudding as the car moves along – can’t hear that – just kind of feel it. Maybe oil isn’t getting’ someplace. Maybe a bearing’s startin’ to go. Jesus, if it’s a bearing, what’ll we do?  Money’s goin’ fast.30

The 1937 Mercedes-Benz 320 Ambulance



 

Mercedes-Benz 170 S-V and 170 S-D ambulances (W 136). Bodywork by Lueg in Bochum. Cover page of the 1954 brochure. (Photo index number in the Mercedes-Benz Classic Archives: 1998DIG6



Mercedes-Benz Museum. Collection Room 3: Gallery of Helpers. Mercedes-Benz 320 ambulance (W 142) from 1937. Exterior view from the front right

The Mercedes-Benz 320 ambulance.

Without blue flashing lights and siren: With its inconspicuous grey paintwork, the Mercedes-Benz ambulance built in 1937 differs significantly from today’s standard. This is demonstrated by its immediate neighbours in the Mercedes-Benz Museum: a few vehicles further on, in the Collection Room 3: The Gallery of Helpers, is an emergency ambulance dating from 2001 that has a box body based on the Mercedes-Benz Sprinter – with blue lights, siren and the familiar livery in bright colours. The Mercedes-Benz 320 ambulance at the Museum, on the other hand, does not yet have the visual and acoustic warning functions that have been standard since the middle of the 20th century. In technical jargon, these are referred to as blue “rotating beacons” and a “two-tone horn”. Instead, a simple Red Cross sign lights up above the windscreen during operations.

More than “rear-view mirror rescue”: Musical instrument manufacturer Hohner in the German town of Trossingen purchased the ambulance based on the comfortable Mercedes-Benz 320 (W 142), presented in 1937 and featuring a 57 kW (78 hp) 3.2-litre six-cylinder engine, for its company medical service. Open the two side-hinged rear doors and you’ll find stretchers for two patients on the left-hand side, one above the other. The lower stretcher can be loaded and unloaded quickly and gently, as it rests on a rail-guided roller-mounted bogie. The bench seat on the right is presumably for an attendant – ideally medically trained. There is also a folding seat. All in all, the vehicle offers a better standard than the so-called “rear-view mirror rescue”: until the nationwide introduction of the modern ambulance service, the paramedic doubled as the driver and kept an eye on the patient in the rear-view mirror while driving.

Emergency medical care and the motor vehicle: 86 years ago, in the event of an accident or other medical emergency, the focus was not on first aid at the scene of the incident, but on fast and reliable transport to a hospital or doctor’s office. But at least the ambulance already provided options for emergency treatment en route. What measures were carried out at the time? The exhibit at the Mercedes-Benz Museum gives us clues: there is a holder for a cylindrical object – perhaps a gas cylinder for respiration. There is a kidney dish in a compartment in the partition facing the driver.

Initiative for safety: Today’s emergency service with its now familiar structures and vehicles was systematically built up in Germany from the 1970s onwards. However, various preceding organisations have existed since the 19th century. These include public, voluntary and private ambulance service providers, as well as companies with their own ambulance service. Since the 1890s, these have used vehicles with various types of drive system as ambulances. The combustion engine soon established itself as the best drive system.

The high-and-long principle: The body of this 1937 ambulance was built by Lueg in Bochum according to a patented system. It makes maximum use of height and length, and is designed specifically for transporting patients. The front end as far as the windscreen corresponds to the original Mercedes-Benz 320. Behind the driver’s cab is the compartment for patients and attendants. It is heated. Access is provided by the double rear door and a side door behind the co-driver. This configuration proved its worth: later in the brand’s history, comparable ambulances of the “high-long” type were often built on the basis of chassis in the tradition of the Mercedes-Benz E-Class with a long wheelbase

Thursday, February 2, 2023

The Lincoln Highway -- Origins and Significance

 

A Transcontinental Link: The Lincoln Highway

            With the increasing numbers of vehicles on the road, the level of talk concerning improved interstate roadways intensified. In 1911, Carl Graham Fischer, an Indianapolis businessman, promoter of the Indianapolis Speedway, and founder of Presto-Lite Company, first proposed building a hard-surfaced, coast-to-coast highway that he named the Lincoln Highway. The Lincoln Highway Association was organized in 1913, and its importance both in the short- and long-run was significant. Travel literature concerning the Lincoln Highway appeared long before the highway was completed and certainly became influential in terms of encouraging the general pubic to hit the road and find adventure.



            Effie Price Gladding’s Across the Continent by the Lincoln Highway certainly was an early example of this genre of writing, and provides a colorful travel account that curiously focuses on California while largely omitting much of the Midwest. For Price, the road trip had little danger and much romance. Price concluded that as a result of her trip, “We have a new conception of our great country; her vastness, her varied scenery, her prosperity, her happiness, her boundless resources, her immense possibilities, her kindness and hopefulness. We are bound to her by a thousand new ties of
acquaintance, of association, and of pride.”12 And while automobile touring temporarily declined during World War I, it returned to Americans in 1919 who now had a “fever” to get back on the road. In fiction, Sinclair Lewis wrote of the adventures of Claire Boltwood in Free Air. Proper Ms. Boltwood escaped from her respectable life in Brooklyn by taking a cross-country road trip in a 70 horsepower Gomez-Dep roadster. Similar to Lewis’s fictional account, Beatrice Larner Massey penned an account of her 1919 tour with the title It Might Have Been Worse: A Motor Trip from Coast to Coast. Massey and her husband leased their home, put family business affairs in order, and left New York City in a Twin-Six Packard. A total of 4,154 miles and about $1,000 later, Mrs. Massey concluded, “This trip can be taken in perfect comfort by two people for thirteen dollars a day, including everything, which means that you are traveling as well as living. Not bad, considering the “H. C. of L. today!”13

            In a sense, the Lincoln Highway Association marked the emergence of the “road-gang,” an effective lobby group that for remainder of the twentieth century that shaped federal highway legislation through political and economic influence. In addition to Fischer, who later made a fortune in Florida real estate while promoting the Dixie Highway, other leaders with automobile industry connections included Roy D. Chapin, John N. Willys, Henry B. Joy, and Frank Sieberling. With substantial funding from General Motors, the Lincoln Highway Association was a precursor to the efforts of Alfred Sloan’s Highway Users’ Conference of the 1930s. Its relationship with the U.S. military during World War I and then with the First Transcontinental Army Convoy in 1919 ensured that its arguments for federal road funding in Western states were duly heard. Between 1913 and 1920, more than 2,000 miles of Lincoln Highway links would be built (U.S. 30 later on), but the cost and difficulties of local and state government jurisdictions led to the disbanding of the association once the landmark Federal Aid Roadway Act of 1921 was passed.14



A recent novel I have yet to read.

Wednesday, February 1, 2023

Which Came First: Good Roads or the Automobile?

 

View of cars lined up on dirt road near Atlanta, Georgia during the 1909 New York to Atlanta Good Roads Tour. Road has embankments; lengths of pipe are piled on roadside. Stamped on back: "Photo by N. Lazarnick. 244-6-8 W. 42nd Street, N.Y. Tel. 594 Bryant. In ordering duplicates mention number on back of this print." Handwritten on back: "NY Atlanta tour just before reaching Atlanta. Tours--New York-Atlanta Good Roads Tour, 1909." Photograph from the Detroit Public Library


Which Came First: Good Roads or the Automobile?

            The interrelated topics of adoption of the automobile and the construction of good roads in America have been the focus of a “chicken and egg” historiographical debate during the past twenty years. The central question is whether the coming of the automobile resulted in the development of improved roadways, or conversely, that existing roads in a number of cities were critical to the acceptance and growing popularity of the car. The interpretation that the car led to good roads was primarily the result of work done in the 1960s and 1970s by John C. Burnham, John Rae, and James Flink, whose interpretations corroborated reports written in trade magazines and popular literature dating back to the beginning of the twentieth century. Rae wrote in 1971 that, “When mass production of motor vehicles was introduced, it preceded any major improvement in the highway network. The historical principle that the highway is built for the vehicle, rather than vice versa, holds good for the automobile.”2 Later, these scholars were labeled by urban historians Eric Monkkonen and Clay McShane as “technological determinists.” Monkkonen asserted that politics had a primacy over technology related to urban transportation when he stated that “good roads are purely political creations.”3 Monkonnen was settling scores with interpretations that were far more sweeping than those written by automobile historians. Yet to extend his analysis to the sphere of America both urban and rural, Monkonnen was traversing dangerous ground.

            Clay McShane, whose previous work had been on urban infrastructures, followed Monkonnen’s lead in Down the Asphalt Path: The Automobile and the American City. McShane also took a position contrary to that of Rae’s, remarking, “The decision of American municipalities in the closing decades of the nineteenth century to adopt asphalt and brick pavements played vital roles in the emergence of the auto. Policy conflict over the regulation of vehicles and the provision of smooth pavements provides the crucial background for automobilization.”4 In particular, McShane, who has taken a position as a “social constructionist,” argued that bicyclists and their influence on the improvement of urban highways should not be ignored, nor should the fact that the automobile had its roots in a number of cities, especially New York City. To some degree, this scholarly spat is the result of discussions concerning moving targets. One’s answer concerning whether politics or technology drove road construction depends specifically on when and where. Circumstances were quite different in 1903 than in 1910 or 1920 or 1930, and what held for explanations concerning the automobile and the road in New York City is hardly similar to that what took place in Mississippi, Louisiana, or for most of America.5 That said, it would be an egregious omission to avoid tackling the topic of the history of roads in twentieth century America in any serious study of the history of the automobile.