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Manufacturing

Society: ASMEMain Category: MechanicalSub Category: ManufacturingEra: 1960-1969DateCreated: 1966Robbins & Lawrence ArmoryWindsorState: VTZip: 05089Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/manufacturing---2/-119-american-precision-museumCreator: Battison, Edwin Albert
In fulfilling a contract for 25,000 U.S. Army rifles (Model 1841) and a like quantity for the British government, Robbins and Lawrence were the first to achieve interchangeability of parts on a fully practical level, contributing greatly to all subsequent mass production of machine products. This was made possible by the systematic improvement and refinement of existing standard and special-purpose machine tools, enabling them to perform with the close-limit precision essential for "repeatability" and thus interchangeability (see the American Precision Museum).
YearAdded:
1987
Image Credit: Courtesy Flickr/Liz West (CC BY 2.0)Image Caption: American Precision MuseumEra_date_from: 1966
Knight Foundry and Machine Shop
Society: ASMEMain Category: MechanicalSub Category: ManufacturingEra: 1870-1879DateCreated: 187313280 Volcano RdSutter CreekState: CAZip: 95685Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/manufacturing---2/-182-knight-foundry-and-machine-shop-%281873%29---Creator: Knight, Samuel

This is one of the earliest US foundry-machine shops remaining in operation and one of the few water powered. It was founded by Samuel N. Knight (1838-1913) to manufacture machinery for the gold mines of the Mother Lode region. Knight was one of several inventors experimenting with impulse turbines to exploit the area's abundant high-head water power for driving hoists, ore stamps, and other mining machinery.

YearAdded:
1995
Image Credit: Courtesy Wikipedia/Bobak Ha'Eri (CC BY 3.0)Image Caption: Knight Foundry and Machine ShopEra_date_from: 1873
Joshua Hendy Iron Works
Society: ASMEMain Category: MechanicalSub Category: ManufacturingEra: 1900-1909DateCreated: 1906401 E Hendy AveSunnyvaleState: CAZip: 94086Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/manufacturing---1/-34-joshua-hendy-iron-works-%281906%29, https://www.asme.org/getmedia/4c99ebb6-8005-461a-a215-0af2f8eaf17c/34-Joshua-Hendy-Iron-Works.aspxCreator: Hendy, Joshua

This ironworks exemplified the adaptability required for industrial survival in a dynamic technical environment. It was a major western producer of mechanical equipment used in mining (especially large hydraulic machines), ship propulsion, irrigation, power generation, optical telescope mounts, and nuclear research.

YearAdded:
1978
Image Credit: Public DomainImage Caption: Joshua Hendy Iron WorksEra_date_from: 1906
Society: ASMEMain Category: MechanicalSub Category: ManufacturingEra: 1800-1829DateCreated: 1807New River Trail State ParkAustinvilleState: VAZip: 24312Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/manufacturing---1/-63-jackson-ferry-shot-tower-%281807%29Creator: Jackson, Thomas , Watts, William
This facility was typical of others in the country that made small spherical lead shot for the fowling pieces of frontier settlers. Smelted lead from the nearby Austinville mines was melted at the top of the tower and poured through a sizing sieve to produce small droplets. Surface tension caused the molted lead to assume a spherical shape that solidified during its 150-foot fall. The shot was then collected in a water-filled kettle at the bottom of the shaft. The "drop process" was patented in England in 1769 by William Watts, a craftsman of Bristol, England.
YearAdded:
1981
Image Credit: Courtesy Wikipedia/Dr00bie (CC BY-SA 3.0)Image Caption: Jackson Ferry Shot TowerEra_date_from: 1807
Gravimetric Coal Feeder
Society: ASMEMain Category: MechanicalSub Category: ManufacturingEra: 1950-1959DateCreated: 1957Stock Equipment PlantChagrin FallsState: OHCountry: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/manufacturing---2/-184-gravimetric-coal-feeder-%281957%29Creator: Stock, Arthur, Hardgrove, Ralph

A variety of mechanical feeders, including drag-chain conveyors and rotary pocket feeders, historically have been used to volumetrically control the flow of fuel to coal pulverizers on power generators. Most power generation in the United States has relied on burning fossil fuels in steam boilers, with coal as the fuel of choice. By the 1920s, pulverized-firing (the burning in suspension of finely ground coal particles) evolved as means to more complete fuel combustion and higher system efficiencies and facilitated the use of larger boilers.

YearAdded:
1995
Image Caption: Drawing from patent documents for Gravimetric Coal Feeder.Era_date_from: 1957
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
Society: ASMEMain Category: MechanicalSub Category: ManufacturingEra: 1870-1879DateCreated: 1876Le CreusotCountry: FranceWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/manufacturing---1/-69-creusot-steam-hammer-%281876%29Creator: Schneider and Co.
The introduction of steam-powered forging hammers by French and British engineers of the 1830s led to the building of this impressive hammer at Creusot that delivered blows to shape and strengthen iron and steel objects before forging. It was for years the most powerful steam hammer in the world. Yet in 1878 a writer observed that "this formidable mass is capable of ... corking a bottle without breakage." With a striking capacity of 100 tons and a stroke of 5 meters, it worked massive iron and steel shafts, piston rods, and other forgings for fifty-four years, until its retirement in 1930.
YearAdded:
1981
Image Credit: Courtesy Wikipedia/Christophe Finot (CC BY-SA 2.5)Image Caption: Creusot Steam HammerEra_date_from: 1876
Society: ASMEMain Category: MechanicalSub Category: ManufacturingEra: 1920-1929DateCreated: 1926The Henry Ford MuseumDearbornState: MIZip: 48124Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/manufacturing---1/-81-corning-ribbon-machine-%281926%29Creator: Woods, William , Corning Glass Works
While Thomas Edison perfected the first practical and durable filament in 1879, it was not until much later that electricity left the laboratory to become the universal source of light. This required a tremendous number of glass envelopes for light bulbs. In the 1890s the top speed of the finest glass-blowing team produced two bulbs a minute.
YearAdded:
1983
Image Credit: Original Image: Courtesy Flickr/ellenm1 (CC BY 2.0)Image Caption: Corning Ribbon MachineEra_date_from: 1926
Society: ASMEMain Category: MechanicalSub Category: ManufacturingEra: 1800-1829DateCreated: ca. 181010017 Colvin Run RoadGreat FallsState: VACountry: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/manufacturing---2/-214-colvin-run-mill-%28ca--1810%29Creator: Unknown
Colvin Run Mill is an early 19th century operating gristmill, closely modeled on the principles developed by Oliver Evans (1755-1819). Powered by a waterwheel, the restored mill was probably built on or after 1811 on the site of an older mill. Originally, the site was the property of George Washington, who identified it as ideal for a mill site. The first verifiable documentation of gristmill business was made by Philip Carter, who purchased a 90-acre property about 1811 from William Sheppard, who probably built the original mill based on Evans' design.
YearAdded:
2001
Image Credit: Courtesy Flickr/Fairfax County Chamber of Commerce (CC BY 2.0)Image Caption: Colvin Run MillEra_date_from: ca. 1810
Society: ASMEMain Category: MechanicalSub Category: ManufacturingEra: 1870-1879DateCreated: 1878John M. Browning Firearms MuseumOgdenState: UTZip: 84401Country: USAWebsite: http://www.asme.org/about-asme/history/landmarks/topics-m-z/manufacturing---2/-141-browning-firearms-collection-%281878%29Creator: Browning, John Moses
This collection recognizes the inventive talents of John Moses Browning (1855-1926), a prolific and significant designer of sporting and military firearms, whose designs were known for simplicity, accuracy, and reliability. He held more than 128 patents covering 80 distinct firearms produced by Winchester, Remington, Colt, Fabrique Nationale, Savage, and General Motors (during wartime), among others.
YearAdded:
1989
Image Credit: Public Domain; Produced prior to 1/1/1923Image Caption: Browning Firearms CollectionEra_date_from: 1878
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