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1930-1939

Rogue River Bridge
Society: ASCEMain Category: CivilSub Category: BridgesEra: 1930-1939DateCreated: 1931Rogue RiverGold BeachState: ORZip: 97444Country: USAWebsite: http://www.asce.org/Project/Rogue-River-Bridge/Creator: McCullough, Conde

The Rogue River Bridge was the most advanced concrete bridge in America when it was built. Distinguished bridge engineer Conde McCullough employed the techniques of Frenchman Eugene Freyssinet to create thin, graceful concrete arches for this seven-span structure.

Pre-compression of the concrete arch was achieved and, as a result of its success, pre-stressing became one of the hallmarks of American bridge building techniques.

YearAdded:
1982
Image Credit: Courtesy Flickr/Bruce Fingerhood (CC BY 2.0)Image Caption: Rogue River BridgeEra_date_from: 1931
Kavanagh Building
Society: ASCEMain Category: CivilSub Category: BuildingsEra: 1930-1939DateCreated: 1936Kavanagh BldgBuenos AiresCountry: ArgentinaWebsite: http://www.asce.org/Project/Kavanagh-Building/Creator: Sánchez, Gregorio , Lagos, Ernesto

Built during the 1930s, when Argentina's economy was the tenth strongest in the world, the Kavanagh Building was one of the world's first reinforced concrete skyscrapers and for many years remained the tallest building in South America. Commissioned by Corina Kavanagh and designed by architect Sanchez Lago y De la Torre, the 31-story modernist structure juxtaposes five volumes in a triangular, stair-like configuration that served for many years as a representative symbol of modern Buenos Aires.

YearAdded:
1994
Image Credit: Courtesy Flickr/Alex Proimos (CC BY 2.0)Image Caption: Kavanagh BuildingEra_date_from: 1936
Hoover Dam
Society: ASCEMain Category: CivilSub Category: DamsEra: 1930-1939DateCreated: 1935Colorado RiverBoulder CityState: AZZip: 86443Country: USAWebsite: http://www.asce.org/Project/Hoover-Dam/Creator: Six Companies, Inc., Davis, Arthur

In 1918, the U.S. Reclamation Service's director and chief engineer Arthur P. Davis proposed a dam of unprecedented height to control the devastating floods on the Colorado River, generate hydroelectric power, and store the river's ample waters for irrigation and other uses.

YearAdded:
1984
Image Credit: Courtesy of Flickr/JoshBerglund19 (CC BY 2.0)Image Caption: Hoover DamEra_date_from: 1935
Golden Gate Bridge
Society: ASCEMain Category: CivilSub Category: BridgesEra: 1930-1939DateCreated: 1937Golden Gate National Recreation AreaMill ValleyState: CAZip: 94941Country: USAWebsite: http://www.asce.org/Project/Golden-Gate-Bridge/Creator: Ellis, Charles , Strauss, Joseph

Put in service in 1937, this world-renowned bridge, conceived by Joseph Strauss and designed largely by Charles Ellis, was the longest single span (4,200 feet) in the world for a quarter century.

As with many civil engineering projects in their conceptual stages, naysayers scoffed at the Golden Gate Bridge. They said it would be technically unfeasible or too expensive to bridge the Golden Gate, a 1.7-mile-wide opening separating the Pacific Ocean from the San Francisco Bay. They said that the channel was too deep; the tides and winds too strong; the span too long.

YearAdded:
1984
Image Credit: Courtesy Flickr/Salim Virji (CC BY-SA 2.0)Image Caption: Golden Gate BridgeEra_date_from: 1937
Going-to-the-Sun Road
Society: ASCEMain Category: CivilSub Category: Roads & RailsEra: 1930-1939DateCreated: 1932Going-To-The-Sun RdWest GlacierState: MTZip: 59936Country: USAWebsite: http://www.asce.org/project/going--to-the-sun-road/Creator: Goodwin, George , Vint, Thomas Chalmers

Considered one of the world's most scenic mountain drives, the two-lane Going-To-The-Sun Road through Glacier National Park was the first major road to be constructed directly over high mountain terrain, proving that roads did not need to be limited to mountain passes.

YearAdded:
1985
Image Credit: Original Image: Flickr/Katie BradyImage Caption: Going-to-the-Sun RoadEra_date_from: 1932
Society: ASMEMain Category: MechanicalSub Category: ManufacturingEra: 1930-1939DateCreated: 1930ABB Combustion EngineeringChattanoogaState: TNZip: 37402Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/manufacturing---1/-44-fusion-welded-test-boiler-drum-%281930%29Creator: Combustion Engineering Inc., Moses, A. J.
This fusion-welded drum, tested during 1930, was the first in a series tested at Combustion Engineering Inc. that led to the industrial acceptance of welding for the fabrication of boiler drums. Replacing riveting for steam power plants, electric arc fusion welding permitted increased efficiencies through higher working pressures and temperatures and fabrication of larger units of improved safety. Welding was then rapidly extended to fabrication using optimum alloys for pressure vessel and structural application. Papers published by A. J.
YearAdded:
1980
Image Credit: Image source: Engrailhistory.infoImage Caption: Fusion-welded Test Boiler DrumEra_date_from: 1930
Eglin Air Force Base
Society: AIAAMain Category: Aerospace & AviationSub Category: AviationEra: 1930-1939DateCreated: 1935Northwest Florida Regional Airport (VPS)ValparaisoState: FLZip: 32580Country: USAWebsite: https://info.aiaa.org/AIAANews/Lists/AIAA%20News/DispForm.aspx?ID=76Creator: U.S. Army Air Corps

Established in 1935 as the Valparaiso Bombing and Gunnery Base, the base supported the U.S. Army Air Corps, the predecessor to the U.S. Air Force, as its primary facility for training new pilots in bombing and gunnery tactics. It also served as a test facility for aircraft, aircraft armament, air-delivered munitions and other aircraft systems. The base was renamed Eglin Field in 1937 in honor of Air Corps aviator Lt. Col. Frederick I. Eglin, who trained pilots during World War I, and who had recently died in an aircraft accident. After Congress created the U.S.

YearAdded:
2009
Image Credit: Public Domain (National Park Service)Image Caption: Eglin Air Force BaseEra_date_from: 1935
Dunlap's Creek Bridge
Society: ASCEMain Category: CivilSub Category: BridgesEra: 1930-1939DateCreated: 1939Dunlap's CreekBrownsvilleState: PAZip: 15417Country: USAWebsite: http://www.asce.org/Project/Dunlap-s-Creek-Bridge/Creator: Delafield, Richard , U.S. Army Corps of Engineers

Not only was Dunlap's Creek Bridge the first cast-iron bridge in America, it was the first metal bridge anywhere to use what its builder, Capt. Richard Delafield, U.S. Army Corps of Engineers, described as "standardized, interchangeable, manufactured parts." The bridge was built as part of the federal government's effort to make repairs on the National Road  before handing authority over to the states. Dunlap's Creek at Brownsville was an especially troublesome crossing, having destroyed three previous bridges since 1801.

YearAdded:
1978
Image Credit: Public Domain (National Park Service)Image Caption: Dunlap's Creek BridgeEra_date_from: 1939
Detroit-Windsor Tunnel
Society: ASCEMain Category: CivilSub Category: TunnelsEra: 1930-1939DateCreated: 1930-Windsor TunnelDetroitState: MIZip: 48226Country: USAWebsite: http://www.asce.org/project/Detroit-Windsor-Tunnel/Creator: Value, Burnside, Thoresen, Søren Anton

The Detroit-Windsor Tunnel is a 5,160-foot structure that carries traffic under the Detroit River between Detroit, Michigan and Ontario, Canada. Privately financed, built, and owned, it was completed in 26 months, 10 months ahead of schedule. 

YearAdded:
1982
Image Credit: Courtesy Flickr/Brian Rawson-Ketchum (CC BY-SA 2.0)Image Caption: Detroit-Windsor TunnelEra_date_from: 1930
Society: ASMEMain Category: MechanicalSub Category: Research and DevelopmentEra: 1930-1939DateCreated: 1939Taylor Blvd
B
BethesdaState: MDZip: 20817Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/research-and-development/-197-david-taylor-model-basin-%281939%29Creator: Taylor, David
The David Taylor Model Basin is among the largest facilities of its kind in the world, containing a shallow water basin, a deep water basin and a high-speed basin. Using its sophisticated combination of towing carriages, wave makers, and measuring equipment, engineers are able to determine the sea-keeping qualities and propulsion characteristics of ship and craft models up to 40 feet in length. Since it became operational, the facility has provided key support in the development of naval architecture for the Navy, the Coast Guard, the Maritime Administration, and the maritime industry.
YearAdded:
1998
Image Credit: Public Domain (United States Navy)Image Caption: David Taylor Model BasinEra_date_from: 1939
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