Search Results

Creator:

Cummings, Robert A., 1866-1962  Search this

Names:

American Society of Civil Engineers.  Search this

Extent:

20 Cubic feet (36 boxes)

Type:

Collection descriptions

Archival materials

Negatives

Research (document genres)

Photographs

Drawings

Glass negatives

Business records

Blueprints

Place:

Pittsburgh (Pa.)

Date:

1884-1952 and undated

Scope and Contents:

The Cummings Structural Concrete Company Records consists primarily of correspondence and business records documenting Robert A. Cummings' firm, consulting work, and participation in professional associations, especially the American Society of Civil Engineers, 1892-1893, circa 1900-1939; technical data and publications on soils testing, 1900-1939; and drawings, blueprints, and photographs and glass negatives of construction projects.

Series 1, Biographical, 1904-1936 and undated documents the professional life of Robert A. Cummings. There are three subseries within this series: Subseries 1, Cummings System of Reinforced Concrete, 1904-1930 and undated; Subseries 2, Professional Organizations, 1908-1936 and undated; and Subseries 3, Writings, 1908-1939 and undated. This series includes documents related to the Cummings System of Reinforced Concrete, including patents, photographs, and advertisements. The series also includes documents relating to professional organizations such as the Allegheny County Authority, the American Society of Civil Engineers, and the World Engineering Congress. Cummings was also a member of the Soils Committee for the American Society of Civil Engineers, and those documents are included in this series. Cummings wrote published and unpublished articles regarding concrete, soil, and construction methods. His writings are also included in this series.

Series 2, Operational Records, 1884-1952 and undated consists of six subseries: Subseries 1, Administrative, 1901-1948 and undated; Subseries 2, Correspondence, 1884-1952 and undated; Subseries 3, Contracts (for projects), 1902-1930 and undated; Subseries 4, Legal Materials, 1907-1916; Subseries 5, Financial, 1894-1921 and undated; and Subseries 6, Personnel, 1918-1921. This series contains the bulk of the information about Cummings' concrete business. Within this series are administrative materials that document the running of the business, including daily reports, bond and insurance papers, specifications, supply notes, field requisitions, and design notebooks. Also included is correspondence to and from Cummings. Recipients of the correspondence include company employees and corporations that did business with the company. A portion of the correspondence is divided topically into subjects such as soil sampling apparatus and barge claims.

The bulk of this series consists of contracts for projects on which Cummings worked. The majority of the projects consist of bridges, water tanks, commercial buildings, and retaining walls. Materials include correspondence, receipts from vendors, hand-written notes, accident reports, blueprints, sketches, and laboratory test reports on materials. The contracts are arranged by contract number as assigned by Cummings. The unnumbered contracts are listed alphabetically. The legal materials consist of documentation that relate to legal matters Cummings dealt with, including the lawsuits Robert Cummings vs. William J. Stewart, Alexander Melville vs. Robert Cummings, andLock Joint Pipe Company vs. Frederick Melber and Electric Welding Company. This series also contains financial and personnel records, including account books, bills, receipts, proposals, estimates, and business journals, as well as applications for employment, correspondence, and weekly progress reports.

Series 3, Subject Files, 1891-1949 and undated consists of correspondence, pamphlets, printed materials, and drawings. The topics within the subject files include soil testing and standards, roads, railroads, minerals, electricity, and concrete barges.

Series 4, Publications, 1887-1955, includes published material related concrete. The series is divided into two subseries: publications by title and publications by subject. Included are booklets, articles of incorporations, charters and by-laws, journals, and government publications. Some of the materials are in German or French.

Series 5, Photographs, 1902-1916 and undated includes 3" x 5", 8" x 10" and other various sizes of photographic prints. The series contains black and white and sepia toned prints. Some of the prints have been mounted onto cardboard or cloth, and some prints have tape on the corners. Some of the prints are annotated on the back. Most of the images are of construction sites in various stages of progress, the interiors of buildings being constructed, manufacturing equipment, and laborers working. Some of these images document early twentieth century methods of manufacturing, such as the use of rope pulleys.

Series 6, Photograph Negatives, undated includes about 75 photograph film negatives. The images in these negatives are primarily of construction scenes, including workers, equipment and work sites.

Series 7, Glass Plate Negatives, 1889-1918 and undated includes 8" x 10", 5" x 8", and 3" x 4" glass plate negatives containing images of bridges, slabs of concrete, construction scenes, the interiors and exteriors of hotels, and the interiors and exteriors of railroad stations.

Series 8, Lantern Slides, undated includes images of the work of the Cummings Structural Concrete Company on 4.5" x 5" glass slides. The images are of industrial machinery, construction sites, and workers.

Arrangement:

The collection is arranged into eight series.

Series 1: Biographical, 1904-1936 and undated

Subseries 1.1: Cummings System of Reinforced Concrete, 1904-1930 and undated

Subseries 1.2: Professional Organizations, 1908-1936 and undated

Subseries 1.3: Writings, 1908-1939 and undated

Series 2: Operational Records, 1884-1952 and undated

Subseries 2.1, Administrative, 1901-1948 and undated

Subseries 2.2: Correspondence, 1884-1952 and undated

Subseries 2.3: Project Contracts, 1902-1930 and undated

Subseries 2.4: Legal Materials, 1907-1916

Subseries 2.5: Financial, 1894-1921 and undated

Series 3: Subject Files, 1891-1970 and undated

Subseries 3.1: Alphabetical, 1891-1970

Subseries 3.2: Testing, 1904-1916

Series 4: Publications, 1887-1955

Subseries 4.1: By title, 1887-1953

Subseries 4.2: By subject, 1902-1940 and undated

Series 5: Photographs, 1902-1916 and undated

Series 6: Photograph Negatives, undated

Series 7: Glass Plate Negatives, 1889-1918 and undated

Series 8: Lantern Slides, undated

Biographical / Historical:

Robert Augustus Cummings (1866-1962) was a consulting civil engineer who worked primarily in Pittsburgh, Pennsylvania. He was born in Norfolk, England and attended the Gresham School at Holt in Norfolk. He trained as a civil engineer with William J. Brewster in his offices, located in Westminster, London, England. During his early career, he worked as a surveyor and field examiner at the Ordinance Survey of Great Britain and Ireland before he relocated to Canada to conduct engineering work on the Grand Trunk Railroad. During the late 1880s and early 1890s, Cummings was employed as a general draftsman for the Pennsylvania Railroad Company in Philadelphia. He worked later as a designer of heavy dredging machinery for the Bucyrus (Ohio) Steam Shovel and Dredge Company and as an assistant engineer of the Norfolk and Western Railroad in Roanoke, Virginia. Cummings established a firm as a civil and consulting engineer in Philadelphia in 1893 before relocating to Pittsburgh in 1899. He founded the Cummings Structural Concrete Company and the Electric Welding Company in 1900, and in 1902 he founded the Lehigh Valley Testing Laboratory, all of which were located in Pittsburgh, Pennsylvania. In 1936, he partnered with his son in the consulting firm of Robert A. Cummings, Jr. and Associates.

During his career, Cummings worked on the design and construction of a variety of projects, including bridges, warehouses, filtration systems, private residences, machine shops, dry docks and piers, factories, dams, and locks. He additionally conducted railroad and land surveys, researched various types of cement, and designed rock, hydraulic, and elevator dredges. Cummings is best known for inventing the "Cummings System of Reinforced Concrete," in which iron or steel bars are embedded within a mixture of Portland cement, water, sand, and gravel or broken stone. As Cummings stated in a 1904 presentation to the Member Engineers' Society of Western Pennsylvania, reinforced concrete "makes an excellent paint for preserving iron or steel, adhering to the metal very firmly and protecting it thoroughly against corrosion. It can easily be made water tight, and its durability is beyond question. These properties of cement mortar can be utilized in re-enforced concrete. This material is well adapted for molding into a monolithic structure, which does not disintegrate when subjected to shocks such as are produced by railroad trains and vibrates much less for a given load than structural steel. Correctly designed re-enforced concrete structures are not liable to sudden failures, as is the case with ordinary concrete, but gives warning by the falling off of the surface concrete long before the point of failure is reached."

Cummings belonged to a number of professional organizations, including the American Society of Civil Engineers, the Engineering Societies Library Board, the American Railway Engineering Association, the American Society for Testing Materials, and the Institution of Civil Engineers of London, England. He married Mary Eloise Hood on December 14, 1892, and had two children, Robert Augustus Jr. and Eloise Hood. Robert A. Cummings died on October 21, 1962, in Pittsburgh.

References

Cummings, Robert A. Presentation to the Member Engineers' Society of Western Pennsylvania, Meeting of Structural Section. November 22, 1904.

Hool, George A. Concrete Engineers Handbook, Data for the Design and Construction of Plain and Reinforced Concrete Structures. New York: McGraw-Hill Book Company, 1918.

Provenance:

Unknown.

Restrictions:

Collection is open for research but is stored off-site and special arrangements must be made to work with it. Contact the Archives Center for information at archivescenter@si.edu or 202-633-3270.

Rights:

Copyright held by the Smithsonian Institution. Collection items available for reproduction, but the Archives Center makes no gurantees concerning copyright restrictions. Archives Center cost-recovery and use fees may apply when requesting reproductions.

Topic:

Reinforced concrete  Search this

Engineering  Search this

Concrete construction  Search this

Civil engineering  Search this

Genre/Form:

Negatives

Research (document genres)

Photographs -- 1900-1950

Drawings

Glass negatives

Business records

Blueprints

Citation:

Cummings Structural Concrete Company Reocrds, 1884-1952 and undated, Archives Center, National Museum of American History

Identifier:

NMAH.AC.0218

See more items in:

Cummings Structural Concrete Company Records

Archival Repository:

Archives Center, National Museum of American History

GUID:

https://n2t.net/ark:/65665/ep8cc352bb7-f4b5-4c5d-9f0d-2441f3d219fd

EDAN-URL:

ead_collection:sova-nmah-ac-0218

Creator:

Hammer, William J. (William Joseph), 1858-1934 (electrical engineer)  Search this

Former owner:

National Museum of American History (U.S.). Division of Electricity and Modern Physics  Search this

Names:

Batchelor, George  Search this

Bell, Alexander Graham, 1847-1922  Search this

Berliner, Emile, 1851-1929  Search this

Curie, Marie  Search this

Curie, Pierre  Search this

Edison, Thomas A. (Thomas Alva), 1847-1931  Search this

Jehl, Francis  Search this

Johnson, Edward H.  Search this

Sprague, Frank J.  Search this

Tesla, Nikola, 1856-1943  Search this

Upton, Francis R.  Search this

Extent:

36 Cubic feet (124 boxes, 3 map-folders)

Type:

Collection descriptions

Archival materials

Correspondence

Photographs

Date:

circa 1847-1989

Summary:

Original documents and papers generated by William J. Hammer and by various companies and individuals with whom he was associated. Includes material related to the research and inventions of Edison, Bell, Tesla, the Curies, etc.

Scope and Contents:

This collection includes original documents and papers generated by Hammer and by various companies and individuals and various secondary sources assembled by Hammer between 1874 and 1934. Hammer's lifelong association with the foremost scientists of his day -- Edison, Bell, Maxim, the Curies, the Wright brothers, and others - afforded him a unique opportunity to collect materials about the development of science along many lines.

This collection, which includes rare historical, scientific, and research materials, was donated by the International Business Machine Corporation to the Museum of History and Technology in 1962 and held by the Division of Electricity. In 1983 it was transferred to the -Archives Center. The collection was badly disorganized when received and contained many fragile documents in poor condition. The collection was organized and arranged as reflected in this register.

The collection documents in photographs, manuscripts, notes, books, pamphlets, and excerpts, the beginnings of electrical technology. In its present state, it comprises four series: Series 1 contains twenty-two boxes of the William J. Hammer Papers, containing both biographical and autobiographical material; Series 2 has twenty boxes of material on Edison; Series 3 consists of thirty-three boxes of reference material; and Series 4 holds twenty-one boxes of photographs and portraits. See the container list beginning on page 39 for more detailed information on the contents of the collection.

Most of the material in the collection is chronologically arranged. However, in some cases alphabetical arrangement has been employed, for example, in the arrangement of portraits of eminent men of electrical science (Series 4, Boxes 78-80, 100-101), and the arrangement of publications (by authors' last names).

Hammer did original laboratory work upon selenium, radium, cathode rays, x-rays, ultra-violet rays, phosphorescence, fluorescence, cold light, and wireless. These aspects of his career are reflected in many parts of the collection: in Series 1 there are articles, notes, diagrams, sketches, graphs,, and correspondence; in Series 3 articles, magazines, news clippings, and bound pamphlets. Tie contributed many technical writings, some of which are found in Series 1.

Papers detailing Hammer's aeronautical activities were transferred to the National Air and Space Museum. They consist of two scrapbooks and one cubic foot of aeronautical photographs of balloons, airplanes, and gliders and one-half cubic foot of correspondence. For further information contact the National Air and Space Museum Archives at (202) 357-3133.

Arrangement:

The collection is divided into four series.

Series 1: William J. Hammer Papers, 1851-1957

Series 2: Edisonia, 1847-1960

Series 3: Reference Materials, 1870-1989

Series 4: Photographs, 1880-1925

Biography of William J. Hammer:

William Joseph Hammer, assistant to Thomas Edison and a consulting electrical engineer, was born at Cressona, Schuylkill County, Pennsylvania, February 26, 1858, and died March 24, 1934. His parents were Martha Augusta Bech (1827-1861) and William Alexander Hammer (1827-1895). He attended private and public schools in Newark, New Jersey, and university and technical school lectures abroad.

On January 3, 1894, Hammer married Alice Maud White in Cleveland, Ohio. They had one daughter, Mabel (Mrs. Thomas Cleveland Asheton). Alice Hammer died in 1906.

In 1878 Hammer became an assistant to Edward Weston of the Weston Malleable Nickel Company. In December 1879 he began his duties as laboratory assistant to Thomas Edison at Menlo Park, New Jersey. He assisted in experiments on the telephone, phonograph, electric railway, ore separator, electric lighting, and other developing inventions. However, he worked primarily on the incandescent electric lamp and was put in charge of tests and records on that device. In 1880 he was appointed Chief Engineer of the Edison Lamp Works. In this first year, the plant under general manager Francis Upton, turned out 50,000 lamps. According to Edison, Hammer was "a pioneer of Incandescent Electric Lighting"! (Hammer's memoranda and notes, Series 2).

In 1881 Edison sent Hammer to London as Chief Engineer of the English Electric Light Co. In association with E. H. Johnson, general manager, Hammer constructed the Holborn Viaduct Central Electric Light Station in London. This plant included three, thirty-ton "Jumbo" steam-powered dynamos (generators), and operated 3,000 incandescent lamps. Holborn was the first central station ever constructed for incandescent electric lighting. Hammer began its operation on January 12, 1882, by lighting the Holborn Viaduct.

In 1882 Hammer also installed a large isolated lighting plant containing twelve Edison dynamos at the Crystal Palace Electric Exposition and the Edison Exhibit at the Paris Electrical Exposition.

At this time Hammer also designed and built the first electric sign. The sign spelled the name "Edison" in electric lights, and was operated by a hand controlled commutator and a large lever snap switch. It was erected over the organ in the Crystal Palace concert hall.

In 1883 Hammer became Chief Engineer for the German Edison Company (Deutsche Edison Gesellschaft), later known as Allegemeine Elektricitaets Gesellschaft. Hammer laid out and supervised the installations of all Edison plants in Germany. While in Berlin he invented the automatic motor-driven "flashing" electric lamp sign. The sign, which flashed "Edison" letter by letter and as a whole, was placed on the Edison Pavilion at the Berlin Health Exposition in 1883.

On his return to the United States in 1884, Hammer took charge of some of Edison's exhibits, including Edison's personal exhibit, at the International Electrical Exhibition held under the authority of the Franklin Institute in Philadelphia. There he built the first flashing "Column of Light." He also became confidential assistant to E. R. Johnson, president of the parent Edison Electric Light Company. Together with Johnson and Frank J. Sprague, he became an incorporator of the Sprague Electric Railway and Motor company. He also was elected a trustee and the company's first secretary.

Hammer installed an all-electric house at Newark, New Jersey in 1884 and he devised various electrical devices and contrivances for an unusual party for friends and colleagues. (See "Electrical Diablerie" beginning on page 6).

At the end of 1884 Hammer became chief inspector of central stations of the parent Edison Electric Light Company. For over two years he made financial, mechanical, and electrical reports on the various stations throughout the United States. During 1886-87 he was chief engineer and general manager of the Boston Edison Electric Illuminating Company. He also acted as contractor for the company. He laid $140,000 of underground tubing and installed Sprague Electric Motors.

In 1888, acting as an independent engineer, he was placed in charge of completing the 8,000 light plant of the Ponce de Leon Hotel in St.Augustine Florida. At the time this was the largest isolated incandescent lighting plant ever constructed. Also in 1888 Hammer was appointed consulting electrical engineer to the Cincinati Centennial Expostition, and as a contractor designed and installed over $40,000 worth of electrical effects.

Hammer was appointed Edison's personal representative remarked, "There are a lot of crowned heads in the Edison business. How many of them am I subservient to?" Mr. Edison answered "You take no instructions except from Thomas A. Edison." Hammer asked "What are your instructions?" Mr. Edison replied, 'Hammer, I haven't any. Go and make a success of it.' In Paris he set up and operated all of Edison's inventions, which embraced nineteen departments and covered 9,800 square feet of space. He also built a huge Edison lamp forty-five feet high employing 20,000 lamps. Edison remarked, 'He had entire charge of my exhibit at the Paris Exposition, which was very successful." This was the largest individual exhibit at the Exposition, costing $100,000. Mr. Edison replied, "I want you to go right out and have a card engraved William J. Hammer, Representative of Thomas A. Edison. You are the only representative I have here," and he complimented him on his work adding, "The French government will do something handsome for you for your work." Hammer replied that he would not raise his hand to get it and did not believe in giving such honors to people who seek them. Mr. Edison said, "You are wrong. You are a young man and such things are valuable. At any rate if there's anyone in this exhibition who deserves recognition, you do, and I'm going to see you get it' (Hammer's memoranda and notes, Series 2). Thirty-four years later, in 1925, through the personal influence of Edison, Hammer was made Chevalier of the Legion of Honor by the French government.

In 1890 Hammer returned to the United States and opened an office as a consulting electrical engineer. He was in private practice until 1925, making reports, conducting tests, and giving expert testimony in patent suits.

On January 31, 1890, Hammer formed the Franklin Experimental Club of Newark where boys could come and carry on experiments, build apparatus, and listen to lectures. Hammer equipped the laboratory at his own expense. One side was an electrical laboratory and the other a chemical laboratory. About forty-five boys joined. Each boy had a key to the club and a section of a bench with his own drawer for keeping notes, tools, and other equipment. In 1892 the structure was destroyed by fire from a saloon next door, ending Hammer's plans for a large and useful institution.

In 1896 Hammer was elected president of the National Conference of Standard Electrical Rules, which prepared and promulgated the "National Electric Code."

In 1902 in Paris, Hammer visited Pierre and Marie Curie, the discoverers of radium and polonium. They gave him nine tubes of radium and one of polonium to bring back to the United States. He also acquired some sulphide of zinc, with which he mixed radium carbonates, producing a beautifully luminous powder. This was the first radium-luminous material ever made. By mixing the powder with Damar varnish he produced the first radium-luminous paint. He was also the first person to make colored (and white) luminous materials. In 1907 he invented and patented a process for producing colored phosphorescent materials by combining phosphorescent and fluorescent substances.

Back in the United States in the fall of 1902 and into 1903, Hammer applied his radium-luminous materials to thirty different objects: luminous dials for clocks and watches, toys, artificial flowers, radium luminous gun sights, taps and pulls for lamp sockets, switches, keyholes, push buttons, telephone transmitters, poison bottle labels, a small plaster figure, push pins, and writing implements among others. He did not patent the invention due to the scarcity and high cost of radium, but later in an important suit involving foreign and American patents of radium-luminous materials, his testimony and that of other noted scientists and professionals of the day who had visited his home and laboratory proved that his work completely anticipated that of all inventors both in the United States and abroad. In 1902 he was one of the first persons to be burned with radium.

Hammer gave eighty-eight lectures on the Curies' work and on radium and radioactive substances. He wrote the first book published on radium, Radium and other Radioactive Substances, 1903. Hammer proposed and used radium for cancer and tumor treatment, successfully treating and curing a tumor on his own hand in July 1903. Tie also supplied several hospitals with radioactive water he had made and conducted extensive experiments with x-rays, cathode-rays, radium-rays, ultraviolet lights, phosphorescence, fluorescence, and cold-light. He was probably the first to suggest many wartime uses for radium-luminous materials, such as airplanes, instruments, markers, barbed-wire, and landing fields.

Hammer also did important work with selenium, a nonmetallic element that resembles sulphur and tellurium chemically. It is obtained chiefly as a by-product in copper refining, and occurs in allotropic forms. A grey stable form varies in electrical conductivity depending on the intensity of its illumination and is used in electronic devices. Hammer invented selenium cells and apparatus, and suggested industrial uses for selenium and other light-sensitive cells.

In 1886 Hammer devised a system for automatically controlling street and other lights by use of a selenium cell. In 1892 he designed a torpedo that could be steered by searchlight and selenium cell. In the early 1900s he suggested many other uses for "light" cells, including burglar alarms, dynamo control, buoy, railroad signaling, automatic gun firing, transmission of music, stethoscope recorder, automatic operating shutters, automatic boiler feed, snow recorder, and electric motor control.

At the St. Louis Exposition of 1904 Hammer was Chairman of the Jury for Telegraphy, Telephony, and Wireless. He was also a member of the "Departmental" Jury ("Applied Science: Electricity") and of the committee appointed to organize the International Electrical Congress at St. Louis in 1904.

In 1906 Hammer received the "Elliott Cresson" gold medal from the Franklin Institute for his "Historical Collection of Incandescent Electric Lamps," accumulated over thirty-four years. This collection received a special silver medal at the International Electrical Exposition at the Crystal Palace, London, England, in 1882, and "the Grand Prize" at the St. Louis Exposition of 1904.

During the First World war Hammer served as a major on the General Staff of the, Army War College, Washington, D.C., where he was attached to the Inventions Section of the War Plans Division and later to the operations Division at the war Department in charge of electrical and aeronautical war inventions. He did special work at the U.S. Patent office, marking and delaying patents that might be useful to the enemy and served on the Advisory Board of Experts attached to the Alien Property Commission. He was elected Historian general of the Military order of the World War (1926-1928) and was a member of the Society of American Military Engineers.

Hammer was an early aeronautics enthusiast and became the owner of one of the first airplanes sold in the United States to an individual. Even in his last few years of his life, Hammer's interest in airplanes did not wane. In 1931, by the permission of the Secretary of the -Navy, Hammer made a twelve-hour flight in the Los Angeles dirigible from the Lakehurst, New Jersey airdrome along the coast of the Atlantic Ocean to New York, flying over New York City at night.

Hammer served on numerous committees. In 1916 he was a member of a special committee, appointed by the Aeronautical Society of America. one of his responsibilities on this committee was to recommend methods for the formation of a reserve force of civilian aviators for the Army. At the start of World War I, Hammer was appointed chairman of a committee on camouflage by the Aeronautical Society. During the war, he flew airplanes and tested sound devices and was also among the first five selected out of thousands for the dissemination of propaganda into many countries. He also examined documents and papers captured from spies and prisoners of war to see if these material contained any technical matter of value to the U. S. Army.

Hammer traveled extensively as a delegate of the Military Order of World War I. For example, in 1922 he attended the aeronautical Congress and Flying Meet in Detroit, Michigan. In the same year he also attended Immigration Conferences of the National Civic Federation in New York.

Between 1922 and 1928 Hammer intensified his efforts in collecting and organizing autographed portraits of eminent scientific men, a project he had been working on for over forty-five years. Tie displayed many of these portraits with his Historical Collection of Incandescent Electrical Lamps in -his New York home. At this time he also prepared an elaborate bibliography on selenium and its industrial and scientific applications.

Major William Joseph Hammer, described by Edison as "my most valuable assistant at Menlo Park" died of pneumonia March 24, 1934.

'Electrical Diablerie':

"ELECTRICAL DIABLERIE"

N.Y. World, January 3, 1885 and Newark, N.J. Daily Advertiser and Journal, January 3, 1885

Some years ago, (1884) on New Year's eve, an entertainment was given at the home of Mr. William J. Hammer, in Newark, N.J., which, for the display of the powers of electricity has seldom, if ever, been equaled. Mr. Hammer, who has for years been associated with Mr. Edison, both in this country and in Europe, desiring to give his old classmates, the "Society of Seventy-Seven," a lively and interesting time, invited them to "an electrical dinner"at his home.

The invitations which were sent out were written upon Western Union telegram blanks with an Edison electric pen. When the guests arrived and entered the gate, the house appeared dark, but as they placed foot upon the lower step of the veranda a row of tiny electric lights over the door blazed out, and the number of the house appeared in bright relief. The next step taken rang the front door bell automatically, the third threw open the door, and at the same time made a connection which lit the gas in the hall by electricity.

Upon entering the house the visitor was invited to divest himself of his coat and hat, and by placing his foot upon an odd little foot-rest near the door, and pressing a pear-shaped pendant hanging from the wall by a silken cord, revolving brushes attached to an electric motor brushed the mud and snow from his shoes and polished them by electricity. As he was about to let go of the switch or button, a contact in it connected with a shocking coil, caused him to drop it like a hot potato. Up-stairs was a bedroom which would be a fortune to a lazy man; he had only to step on the door sill and the gas was instantly lighted. The ceiling was found to be covered with luminous stars, arranged to represent the principal constellations in the heavens-while comets, moons, etc., shone beautifully in the dark. By placing one's head on the pillow, the gas, fifteen feet away, would be extinguished and the phosphorescent stars on the ceiling would shine forth weirdly, and a phosphorescent moon rose from behind a cloud over the mantel and slowly describing a huge arch disappeared behind a bank of phosphorescent clouds on the other side of the room; by pressing the toe to the foot-board of the bed the gas could again be relit.

Pouring a teacup of water into the water clock on the mantel and setting the indicator would assure the awakening of the sleeper at whatever hour he might desire. There was also in the hall outside the room a large drum, which could be set to beat by electricity at the hour when the family wished to arise. The whole house was fitted throughout with electric bells, burglar alarms, fire alarms, telephones, electric cigar lighters, medical coils, phonographs, electric fans, thermostats, heat regulating devices, some seven musical instruments, operated by electricity, etc.

Upon the evening referred to nearly every. piece of furniture in the parlor was arranged to play its part. Sit on one chair and out went the gas, take another seat and it would light again; sitting on an ottoman produced a mysterious rapping under the floor; pressure on some chairs started off drums, triangles, tambourines, cymbals, chimes and other musical instruments; in fact, it seemed unsafe to sit down anywhere. The quests stood about in groups and whispered, each hoping to see his neighbor or a new comer caught napping.

One visitor (Brown) secured an apparently safe seat, and was telling a funny story--he had left electricity far behind--but just as he reached the climax, a pretty funnel-shaped Japanese affair like a big dunce cap, that seemed but a ceiling ornament which was held in place by an electromagnet, dropped from overhead and quietly covered him up, thus silently extinguishing the story and the story-teller.

A big easy chair placed invitingly between the folding doors joining the double, parlors sent the unwary sitter flying out of its recesses by the sudden deafening clamor of twenty-one electric bells hidden in the folds of the draperies hanging in the doorway. In a convenient position stood the silver lemonade pitcher and cup, the former was filled with the tempting beverage, but no matter how much a guest might desire to imbibe one touch convinced him that the pitcher and cup were so heavily charged with electricity as to render it impossible for him to pour out a drink or even to let go until the electricity was switched off from the hidden induction coil.

Some one proposed music, and half a selection had been enjoyed when something seemed to give way inside the piano, and suddenly there emanated from that bewitched instrument a conglomeration of sounds that drowned the voices of the singers, and the keys seemed to beat upon a horrible jangle of drums, gongs and various noise-producing implements which were fastened inside of and underneath the piano.

After the guest were treated to a beautiful display of electrical experiments, under the direction of Mr. Hammer, and Professor George C. Sonn, they were escorted to the dining-room, where an electrical dinner had been prepared and was presided over by 'Jupiter," who was in full dress, and sat at the head of the table, where by means of a small phonograph inside of his anatomy he shouted, "Welcome, society of Seventy-Seven and their friends to Jove's festive board." The menu was as follows: "Electric Toast," "Wizard Pie," "Sheol Pudding," "Magnetic Cake," "Telegraph Cake," "Telephone Pie," "Ohm-made Electric Current Pie," "Menlo Park Fruit," "Incandescent Lemonade," "'Electric Coffee" and "Cigars," etc., and music by Prof. Mephistopheles' Electric Orchestra.

About the table were pretty bouquets, and among the flowers shone tiny incandescent lamps, while near the center of the table was placed an electric fan which kept the air cool and pure, and at each end was a tiny Christmas tree lighted with small incandescent lamps, planted in a huge dish of assorted nuts and raisins. Each lamp had a dainty piece of ribbon attached to it upon which the initials of the Society and the date were printed, and each guest received a lamp to take away with him as a souvenir of the occasion. Plates of iced cakes made in the form of telephones, switches, bells, electric lamps, batteries, etc., stood on each side of the center piece.

Promptly at 12 o'clock, as the chimes of the distant churches came softly to the ears of the assembled quests, pandemonium seemed to change places with the modest dining-room. A cannon on the porch, just outside the door, and another inside the chimney, were unexpectedly discharged; and at this sudden roar, every man sprang back from the table; the lights disappeared; huge fire-gongs, under each chair beat a tattoo. The concussion produced by the cannon in the fireplace caused several bricks to come crashing down the chimney, and as the year of 1884 faded away, the table seemed bewitched. The "Sheol Pudding" blazed forth green and red flames illuminating the room, tiny tin boxes containing 'Greek" fire which had been placed over each window and door were electrically ignited by spirals of platinum iridium wire heated by a storage battery and blazed up suddenly; the "Telegraph Cake" clicked forth messages said to be press reports of the proceedings (it was also utilized to count the guests and click off the answers to various questions put to it); bells rang inside the pastry; incandescent lamps burned underneath the colored lemonade; the thunderbolt pudding discharged its long black bolts all over the room (long steel spiral springs covered with black cloth) and loud spirit rapping occurred under the table. The silver knives, forks and spoons were charged with electricity from a shocking coil and could not be touched, while the coffee and toast (made by electricity) were made rapidly absorbed; the "Magnetic Cake' disappeared; the "Wizard" and "Current Pies' vanished, and 'Jupiter" raising a glass to his lips began to imbibe.

The effect was astonishing! The gas instantly went out, a gigantic skeleton painted with luminous paint appeared and paraded about the room, while Jupiter's nose assumed the color of a genuine toper! His green eyes twinkled, the electric diamonds in his shirt front (tiny lamps) blazed forth and twinkled like stars, as he phonographically shouted "Happy New Year'. Happy New Year!" This "Master of Cererionies' now becoming more gentle, the guests turned their attention to the beautiful fruit piece, over four feet high, that stood in the center of the table. From the fruit hung tiny electric lamps, and the whole was surmounted by a bronze figure of Bartholdils "Statue of Liberty;" uplifted in "Miss Liberty's" right hand burned an Edison lamp no larger than a bean.

The dinner finished, and there was much that was good to eat, notwithstanding the "magical" dishes which they were first invited to partake of, speeches were delivered by Messrs. Hammer, Rutan, McDougall, 'Brown, Duneka, and Dawson, and an original poem was read by Mr. Van Wyck. Upon repairing to the parlors the guest saw Mr. Hammer's little sister, May, dressed in white and mounted upon a pedestal, representing the "Goddess of Electricity:" tiny electric lamps hung in her hair, and were also suspended as earrings, while she held a wand surmounted by a star, and containing a very small electric lamp.

Not the least interesting display of electricity took place in front of the house, where a fine display of bombs, rockets, Roman candles, Greek fire and other fireworks were set off by electricity, which was by the way, the first time this had been accomplished. The guests were requested to press button switches ranged along the front veranda railing thus causing electricity from a storage battery to heat to a red heat tiny platinum iridium spirals attached to each fuse of the various pieces of fireworks thus sending up rocket after rocket, as well as igniting the other pieces which had been placed in the roadway in front of the house.

An attempt was made to send up a large hot air balloon to which was attached a tiny storage battery and an incandescent signal lamp but a sudden gust of wind caused the ballon to take fire as it rose fr(xn the ground. This constituted the only experiment made during the evening which was not an unqualified success. The innumerable electrical devices shown during the progress of the dinner were all operated by Mr. Hammer, who controlled various switches fastened to the under side of the table and attached to a switchboard, which rested on his lap, while the two cannons were fired by lever switches on the floor, which he operated by the pressure of the foot. Electricity was supplied by primary and storage batteries placed under the table. After an exhibition of electrical apparatus and experiments with a large phonograph, the guests departed with a bewildered feeling that somehow they had been living half a century ahead of the new year."

Expositions and Exhibitions:

The many Expositions held at the end of the 19th and the beginning of the 20th centuries were important for the Edison Electric Company's future business. In particular the Paris Electrical Exposition, 1881, and the Crystal Palace Exposition in London in 1892 were introductions for the company's international business enterprises. Edison, therefore, sent his ablest men from the Menlo Park staff (Batchelor, Hammer, Jehl, Johnson) to Europe to oversee the installation and promotion of the company's exhibits.

THE INTERNATIONAL PARIS EXPOSITION OF 1881

The International Paris Electrical Exposition was held during the summer of 1881. Many of Edison's electric lighting systems, ranging from arc lights to incandescent devices, were exhibited. A model of the Edison central-station lighting system showed an arrangement of incandescent lights within a complete electrical distributing system, including novel appliances and controls of the Edison system. "The completeness of its conception made a profound impression on the foremost European electrical engineers of that era." (Josephson, Matthew. Edison, A Biography. p. 252). Edison also exhibited his first "Jumbon generator. It was "direct-connected" to its driving engine, another area in which Edison pioneered. Edison improved upon the original design of William Wallace's "Telemachon' - a generator coupled to a water-powered turbine. Wallace had earlier in the decade produced the first dynamo in America.

Charles Batchelor headed the Edison exhibits within Paris. Edison received many gold medals and diplomas and was awarded the ribbon of the Legion of Honor.

The William J. Hammer Collection contains various reports and catalogues exhibited at the International Exposition of Electricity. (Series 3, Box 44, Folders 1-4)

THE CRYSTAL PALACE EXHIBITION OF 1882

At the Crystal Palace Exhibition of 1882 in London, Edison displayed a great many of his inventions, including: the steam dynamo; specimens of street pipes and service boxes used in the Edison underground system of conductors, and the system of house conductors with devices for preventing abnormal increase of energy in house circuits; apparatus for measuring the resistance of his lamps, for measuring the energy consumed in lamps, and rheostats for restoring currents; also thermogalvano-meters, carbon rheostats, dynamometers, photometers, carbon regulators, Weber meters,, current regulators, and circuit breakers for controlling electric light circuits; the carbon relay, the pressure relay, and the expansion relay; the telegraph system in Morse characters; and the Roman character automatic telegraph.

Thomas Edison also exhibited the carbon telephone, the musical telephonograph, telephone repeater, and numerous apparatus for demonstrating the method of varying the resistance of a closed circuit by contact with carbon, illustrative of the experimental factors of the Edison carbon transmitter. Incandescent lamps, the process of the manufacture of lamps, and various designs of electric light chandeliers were also on display.

Hammer won the silver medal at the exposition for the first complete development of the incandescent electric lamp from its initial stages to date. At the exhibition the first hand-operated flashing electric lamp sign was displayed, which was invented and built by Hammer.

The collection contains photographs of the Edison dynamo, and the Edison Electric Lighting Plant of 1882 erected by Hammer. The official Catalogue of the International Electric and Gas Exhibition, and various articles from the Daily Telegraph, Daily Chronicle, and Daily News are also included within the collection (Series 4, Box 99 and Series 3, Box 42, Folder 1-2).

THE BERLIN EXPOSITION OF 1883.

The Berlin Exposition of 1883 had the first motored flashing electric sign designed, built and operated by Hammer. The electric sign spelled out the word "Edison" letter by letter and was used on the Edison pavilion in the Health Exposition. It has most features of today's flashing sign.

The collection contains two photographs of the first flashing sign (Series 4, Box 99).

THE FRANKLIN INSTITUTE INTERNATIONAL ELECTRICAL EXHIBITION OF 1884

The Franklin Institute International Electrical Exhibition was held in Philadelphia from September 2 to October 14, 1884. Many of Edison's companies had display booths at the exhibition. The Edison Electric Light Company showed in operation their system of house lighting as supplied from a central station. The Edison Company for Isolated Lighting exhibited their system of lighting factories, hotels, hospitals, and other places situated beyond the reach of a central lighting station. A full assortment of Edison lamps and dynamos also made up parts of other exhibits. Also displayed at the exhibition was the first flashing column of light, which Hammer designed and built.

Included within the collection are a variety of photographs of the exhibitions. Four pamphlets also are contained in the collection (Series 3, Box 1, Folder 3), (Series 4, Box 99).

THE EXPOSITION OF THE OHIO VALLEY AND THE CENTRAL STATES OF 1888

The Exposition of the Ohio Valley and Central States, in Cincinnati from July 4 to October 27, was in honor of the one hundredth anniversary of the settlement of Cincinnati. The exposition showed the progress and ramifications of the first hundred years of this settlement.

The space occupied by permanent buildings was greater than that covered by any building for exhibiting purposes on the Western continent. T',ie exposition developed the Electric Light Plant to make a special feature of electric lighting in the evening. Several companies used this opportunity to make exhibits of their apparatus and for their equipment to be used for illumination. The Edison Lamps were used for displays in showcases and pavilions of exhibitors of the Park Building.

The collection contains photographs of the halls of the exposition and a poster which is a souvenir of the electrical display of the exposition. An official Guide of the Centennial Exposition of the Ohio Valley and Central States is included within the collection. (Series 4, Box 99), (Series 3, Box 42, Folder 4).

THE SUMMER CARNIVAL AND ELECTRICAL EXHIBITION, ST. JOHN, NEW BRUNSWICK, 1889

The Summer Carnival and Electric Exhibition held at St. John, New Brunswick, Canada was to celebrate the opening of the Canadian Pacific Short Line to St. John and Portland. The Electrical Exhibition was the most popular of the displays present, containing the Monster Edison Lanm, the Mysterious Electric Fountain, and many other inventions.

The William J. Hammer Collection contains a poster that illustrates some of the leading exhibits at the Electrical Exhibition (Series 4, Box 99).

PARIS UNIVERSAL EXPOSITION OF 1889

The Universal Exposition of 1889 held in Paris was larger than all previous expositions held there. The famous Eiffel Tower was its principal attraction.

A large portion of the exhibit hall within the Palace of Mechanical Industries contained Thomas Edison's electrical inventions, including various electric lamps for use in houses. Variations of the telephone also were shown. During the Paris Exposition Europeans were exposed to the phonograph for the first time. Hammer represented Edison's interests at the Paris Exhibition.

The collection contains articles from New York World, New York Herald and Electrical World on Edison's exhibits at the Paris Exposition (Series 3, Box 44, folder 6). A scrapbook of photographs from the exhibition showing exhibit buildings and halls and loose photographs showing Edison's exhibits are included in the collection (Series 4, Box 98).

THE CRYSTAL PALACE EXHIBITION OF 1892

The Crystal Palace Exhibition of 1892 was held in London. Hammer displayed a great variety of products in the machine room of the Electrical Exhibition. Sockets for controlling individual incandescent lamps on alternating currents and the Ward Arc Lamp for use on incandescent circuits were just a few of the items displayed. Edison's companies displayed specimens of all types of incandescent electric lamps for public and private illumination. They also displayed primary batteries for use in telegraphy, telephony, household work, and engines.

The William, J. Hammer Collection contains a variety of photographs of the electrical exhibition. The Official Catalogue and Guide of the Electrical Exhibition is also contained within the collection (Series 4, Box 99), (Series 3, Folder 2, Box 42).

LOUISIANA PURCHASE EXPOSITION, 1904

The Louisiana Purchase Expostition of 1904, held in St. Louis, Missouri from April 30 to December 1, celebrated the centennial of the Louisiana Purchase. The nineteen million people who attended made it the largest exposition ever. The year 1904 marked the twenty-fifth anniversary of Edison's invention of the carbon filament lamp and central power station system.

F.J.V. Skiff, the exhibits classifier for the fair, developed a twofold classificatory arrangement. He organized exhibits in a sequential synopsis corresponding to the sixteen different departments of the exposition. The principal exhibition buildings were built in the shape of a fan. The departments of education, art, liberal arts, and applied sciences-including electricity - headed the classification, Skiff noted, because they "equip man for the battle and prepare him for the enjoyments of life.' Departments devoted to displays of raw materials such as agriculture, horticulture, !inning, forestry, fish and game came next. Anthropology, social economy, and physical culture concluded the classification.

The Hammer collection contains photographs of Hammer with other Chairmen of Domestic and Foreign Jurors of the Electricity Section of the International Jury of Awards of the Louisiana Exposition and Hammer as chairman of the jury on telegraphy, telephony, and wireless. (Series 4, Box 102). A pamphlet by the American Telephone and Telegraph Company on the exhibit of the Radiophone at the Department of Applied Science is also part of the collection (Series 3, Box 42, Folder 5).

THE PANAMA-PACIFIC EXPOSITION OF 1915

The Panama Pacific Exposition celebrated the opening of the Panama Canal and the four hundredth anniversary of the European discovery of the Pacific Ocean. It was held in San Francisco from February 20 to December 4, 1915. Approximately nineteen million people attended the exposition.

The eleven main buildings of the exposition were grouped around a central court of the Sun and Stars at the entrance of which was the famous Tower of Jewels. The main group of exhibits comprised the Palaces of Education, Liberal Arts, Manufactures, Varied Industries, Mines,

Transportation, Agriculture, Horticulture and all kinds of food products. During the exposition special days were set aside to honor industrialists Henry Ford and Thomas Edison. The Pacific Gas and Electric Company provided a large searchlight to flash out a Morse code greeting on the nighttime sky for their arrival.

The William J. Hammer Collection contains a pamphlet on the "Illumination of the Panama-Pacific International Exposition." The pamphlet describes the lighting of the exposition, and the use of arc lamps ' searchlights, incandescent electric lamps, and gas lamps (Series 4, Box 99), (Series 3, Box 43).

Provenance:

Collection donated by IBM, 1962.

Restrictions:

Collection is open for research.

Rights:

Collection items available for reproduction, but the Archives Center makes no guarantees concerning copyright restrictions. Other intellectual property rights may apply. Archives Center cost-recovery and use fees may apply when requesting reproductions.

Topic:

Fluorescence  Search this

Electrical engineering  Search this

Incandescent lamps  Search this

Phosphorescence  Search this

Selenium cells  Search this

Cathode rays  Search this

X-rays  Search this

Radium  Search this

Genre/Form:

Correspondence -- 1930-1950

Photographs -- 1850-1900

Photographs -- 20th century

Citation:

William J. Hammer Collection, Archives Center, National Museum of American History

Identifier:

NMAH.AC.0069

See more items in:

William J. Hammer Collection

Archival Repository:

Archives Center, National Museum of American History

GUID:

https://n2t.net/ark:/65665/ep806480cfb-3204-4fc1-8e11-b58fffe1b338

EDAN-URL:

ead_collection:sova-nmah-ac-0069

Creator:

Cooper Hewitt, Smithsonian Design Museum  Search this

Type:

YouTube Videos

Uploaded:

2020-12-15T02:35:48.000Z

YouTube Category:

Education  Search this

Topic:

Design  Search this

See more by:

cooperhewitt

Data Source:

Cooper Hewitt, Smithsonian Design Museum

YouTube Channel:

cooperhewitt

EDAN-URL:

edanmdm:yt_QQ6jfUm83hA

Creator:

National Museum of American History  Search this

Type:

Lectures

YouTube Videos

Uploaded:

2016-12-12T19:54:12.000Z

YouTube Category:

Education  Search this

Topic:

American History  Search this

See more by:

SmithsonianAmHistory

Data Source:

National Museum of American History

YouTube Channel:

SmithsonianAmHistory

EDAN-URL:

edanmdm:yt_ClfM_q8OyJU

Creator:

Smithsonian Center for Folklife and Cultural Heritage  Search this

Type:

Blog posts

Smithsonian staff publications

Blog posts

Published Date:

Mon, 14 Aug 2023 04:00:46 GMT

Topic:

Cultural property  Search this

See more posts:

Festival Blog

Data Source:

Smithsonian Center for Folklife and Cultural Heritage

EDAN-URL:

edanmdm:posts_07dabc476c69b4f8f083fd525ff5bef0

Creator:

Wright-Patterson Air Force Base (Ohio)  Search this

Names:

McCook Field, Ohio  Search this

United States. Air Force  Search this

United States. Air Force Materiel Division  Search this

United States. Air Materiel Command  Search this

Wright Field, Ohio  Search this

Wright-Patterson Air Force Base (Ohio)  Search this

Extent:

733.77 Cubic feet (1508 document boxes)

Type:

Collection descriptions

Archival materials

Correspondence

Publications

Reports

Photographs

Date:

1915-1955

Summary:

Throughout its history the Engineering Division/Materiel Division at Wright Field in Dayton, Ohio, maintained a catalogued library of technical documents, which was turned over to the Air Force Museum and later donated to the National Air and Space Museum. The collection consists of reports and other documents on a variety of aviation-related topics, including general science (aeronautics, physics, chemistry, etc); military air service personnel, organization, and equipment for both US and foreign air forces; as well as operations, and so on. Currently, the finding aid only covers documents from the D52.1 subject code (Airplanes, arranged alphabetically) and only those that are physically located in the Wright Field Technical Documents Library.

Scope and Contents:

The collection consists of reports and other documents on a variety of aviation-related topics, including general science (aeronautics, physics, chemistry, etc); military air service personnel, organization, and equipment for both US and foreign air forces; as well as operations, and so on. Information on foreign services and equipment is usually from military intelligence reports, although some foreign documents or translations are included. The material also includes a large section of test reports from the Material Division itself.

Arrangement:

Every document in the collection has been assigned a multi-part Wright Field Number. This number is adapted from the Air Force central decimal correspondence filing system. Wright Field Numbers are written in the format:

[Subject Code] [Category Suffix] / [Sequence Number] [Sequence Modifier]

Subject Code: This number begins with an alpha-numeric subject code. For example, D52.1 (Airplanes, arranged alphabetically).

Category Suffix: A more specific textual subject reference. For example, in the D52.1 subjects, the suffix is usually a manufacturer name, aircraft name, or a general type of aircraft. (Original Wright Field cataloguers could be inconsistent in how they classified an airplane. For example, a document on a Japanese Mitsubishi A6M could be filed alphabetically under A6M, Mitsubishi, Zeke, Zero, or Misc. Japanese.) It is possible to not have a category suffix.

Sequence Number: The individual number assigned to the document within its subject code and category. If a document was formerly classified as "Security Information," the sequence number starts with "S," for example "S-1." These are usually filed at the beginning of a range of documents. Sometimes technical manuals are filed using the technical order (TO) number. For example, 01-20EE-3 is the sequence number used for a Boeing B-17 Handbook of Overhaul Instructions, TO-01-20EE-3.

Sequence Modifier: If there is a revision or multiple parts of a document, this is reflected in a sequence modifier. Ex. Dates, revision numbers, etc.

The documents are arranged alpha-numerically by Wright Field Number in the order of:

Subject Code, Category Suffix, Sequence Number, Sequence Modifier

Example of arrangement by Wright Field Number:

D52.1 / 42

D52.1 Aeronca / 2

D52.1 Boeing / S-1

D52.1 Boeing / 422

D52.1 Boeing / 511 Dec 1, 1941

D52.1 Boeing / 511 vol. 2 March 1, 1943

D52.1 Misc. Japanese / 46

Each record contains the title and source from the index cards. Information from the subject field on the cards appears as a scope and content note.

Currently, the finding aid only covers documents from the D52.1 subject code and only those that are physically located in the Wright Field Technical Documents Library. Please contact the NASM Archives regarding additional documents. Some may be located in the Technical Reference Files, cataloguing information may be only on the index cards, or the document has been catalogued as missing from the collection.

Biographical / Historical:

In 1917, the United States Army Air Service established an aviation engineering section at McCook Field in Dayton, Ohio. In 1927, the Engineering Division, as it was then known, moved to nearby Wilbur Wright Field and remained there as the Air Force Materiel Division (AFMD) and Air Materiel Command (AMC) until Wright Field combined with Patterson Field to become Wright-Patterson Air Force Base in 1948. The Engineering Division was responsible for Army Air Services research and development and served as a clearinghouse for information on aviation development worldwide. Throughout its history the Engineering Division/Materiel Division maintained a catalogued library of documents, which was turned over to the National Museum of the United States Air Force at Wright-Patterson and was later donated to the National Air and Space Museum.

Provenance:

United States Air Force Museum, Transfer, 1962, NASM.XXXX.0428.

Restrictions:

No restrictions on access

Rights:

Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests

Topic:

Military intelligence  Search this

Airplanes, Military -- Flight testing  Search this

Aeronautics, Military  Search this

Aeronautics  Search this

Aeronautics, Military -- Research  Search this

Genre/Form:

Correspondence

Publications

Reports

Photographs

Identifier:

NASM.XXXX.0428

See more items in:

Wright Field Technical Documents Library

Archival Repository:

National Air and Space Museum Archives

GUID:

https://n2t.net/ark:/65665/pg2124245c3-eb7c-495a-a446-e87ba26d8251

EDAN-URL:

ead_collection:sova-nasm-xxxx-0428

Creator:

Pittsburgh Consolidation Coal Company  Search this

Consolidation Coal Company  Search this

Donor:

Bethlehem Steel Corporation  Search this

Extent:

23 Cubic feet (99 boxes)

Type:

Collection descriptions

Archival materials

Photographs

Photograph albums

Date:

1885-1940s

Summary:

The collection documents the building, operation and daily life of coal mining communities in Kentucky, West Virginia and Ohio between 1911 and 1946. The collection is a valuable for the study of mining technology and the social conditions of the time period and regions.

Scope and Contents:

The collection consists mostly of photographs depicting Pittsburgh Consolidation Coal Company mines and mining towns in Maryland, Kentucky, Ohio, Pennsylvania, and West Virginia. Subjects include worker housing, schools for miners' children, gardens, churches, recreational facilities, health services, company stores, safety, mining machinery, construction of mines and related structures, and the interiors of mines.

Arrangement:

The collection is arranged into two series.

Series 1: Background Materials, 1904-1933

Series 2: Photographs, 1885-1940s

Subseries 2.1: Photograph Albums, 1885-1932

Subseries 2.2: West Virginia Division, 19091-1917

Subseries 2.3: Glass Plate and Film Negatives, 1911-1940s

Subseries 2.4: Numbered Photographs, 1911-1930

Subseries 2.5: Miscellaneous, 1913, 1916

Historical Note:

The Consolidation Coal Company was started in 1864 to mine bituminous coal deposits in Maryland's Cumberland region. it expanded by acquiring other mine companies as well as rail and other transportation companies. It went into receivership in 1932. The Pittsburgh Coal Company, founded in 1900, took over the firm in 1945 and formed the Pittsburgh Consolidation Coal Company.

The Consolidation Coal Company (Maryland)

The Consolidation Coal Company was incorporated in Maryland on March 8, 1860, for the purpose of effecting a merger of a number of coal operators mining the Georges Creek basin in Allegany County, Maryland. Because of the Civil War, during which Confederate armies frequently blocked the region's only outlet to market, the company was not actually organized until April 19, 1864. Starting life as the dominant operator in this small but significant coal field, "Consol" rose to become the nation's top producer of bituminous coal.

The Georges Creek or Cumberland Coal Field, occupying part of the triangle of western Maryland, contained a high-quality, low-volatile bituminous steam coal which was also, thanks to the Potomac River, the coal of this type most accessible to Eastern markets. Coal had been mined in the region beginning in the 1700s, and the first coal company, the Maryland Mining Company, had been incorporated in 1828. However, large-scale development could not occur until the mid-1840s, after the Baltimore and Ohio Railroad reached Cumberland and provided reliable transportation. This also coincided with the development of ocean steam navigation and a rapid growth in the number of railroad locomotives and stationary steam engines. Cumberland coal was ideal for ship bunkering, and much of the output was shipped to New York Harbor. Naturally, New York capitalists and manufacturers played a leading role in developing the field. Lewis Howell's Maryland and New York Iron and Coal Company rolled the first solid U.S. railroad rail at its Mount Savage mill in 1844. The Consolidation Coal merger was put together by New Yorkers such as William H. Aspinwall, Erastus Corning, the Delanos and Roosevelts, and the Boston financier John Murray Forbes, who already had substantial investments in the region.

Upon its formation, the Consolidation Coal Company acquired the properties of the Ocean Steam Coal Company, the Frostburg Coal Company, and the Mount Savage Iron Company totaling about 11,000 acres. The last named company brought with it control of the Cumberland and Pennsylvania Railroad, which connected the mines to the Baltimore & Ohio and later the Pennsylvania and Western Maryland railroads. In 1870, Consol absorbed the Cumberland Coal and Iron Company of 1840, the next largest operator in the field, and gained an additional 7,000 acres. Further purchases from the Delano interests gave it over 80 percent of the entire Cumberland Field.

Soon after its hated rival, the Pennsylvania Railroad, gained access to the Cumberland Coal Field, the Baltimore and Ohio Railroad began purchasing large blocks of Consolidation Coal stock to protect its traffic base in 1875, eventually gaining a 52 percent interest. A B&O slate of directors was elected in February 1877, with Charles F. Mayer of Baltimore as president, and the company offices were moved from New York to Baltimore.

Until the turn of the century, Consolidation Coal's mining operations were confined to the small soft coal region of western Maryland. The company purchased the 12,000 acre Millholland coal tract near Morgantown, W.Va. in 1902 and acquired controlling interests in the Fairmont Coal Company of West Virginia and the Somerset Coal Company of Pennsylvania the following year. These acquisitions boosted Consolidation's annual production more than six-fold in only three years. The company purchased the 25,000 acre Stony Creek tract in Somerset County, Pa., in 1904. The Fairmont Coal Company purchase included a joint interest in the North Western Fuel Company, which owned and operated docks and coal distribution facilities in Wisconsin and Minnesota.

In 1906, the Interstate Commerce Commission held a formal investigation of rail ownership of coal companies, which resulted in the passage of the Hepburn Act and its "Commodities Clause," which prohibited railroads from dealing in the commodities they hauled. In anticipation of the new regulations, the Baltimore and Ohio Railroad sold its entire holdings of Consolidation stock to a Baltimore syndicate headed by Consol president Clarence W. Watson, J. H. Wheelwright and H. Crawford on April 26, 1906. At the time of the B&O's divestiture, the aggregate annual output of Consolidation's mines totaled more than 10 million tons and the company controlled more than 200,000 acres. The John D. Rockefeller interests began purchasing Consol securities in 1915, eventually securing a controlling interest. The company's offices were returned to New York City in May 1921.

After the B&O divestiture, Consol began expanding into the Southern Appalachian coal fields, which were just being opened by railroads on a large scale. The mines in this region yielded a low volatile coal that provided an ideal fuel source for stationary steam engines, ships, and locomotives. Of equal importance, operators in the remote mountains had been able to resist unionization and thus achieve lower operating costs, while all of Consol's previous holdings had been in the so-called "Central Competitive Field" to the north, which had been unionized in the 1890s. Consolidation Coal purchased 30,000 acres in the Millers Creek Field of Eastern Kentucky in 1909 and 100,000 acres in the Elkhorn Field the next year. In February 1922, Consol secured a long term lease and option on the Carter Coal Company, whose 37,000 acres straddled the borders of Virginia, West Virginia and Kentucky. In 1925, Consol became the nation's largest producer of bituminous coal, excluding the captive mines of the steel companies.

During the Great Depression, Consolidation Coal experienced serious financial difficulties and was forced into receivership on June 2, 1932. The Rockefellers liquidated their holdings at a loss, and the Carter Coal Company was returned to the Carter heirs in 1933. Consol was reorganized and reincorporated in Delaware as the Consolidation Coal Company, Inc. on November 1, 1935, and was able to retain its position as one of the nation's top coal producers. Eventually, stock control passed into the hands of the M.A. Hanna Company group of Cleveland, dealers in coal and iron ore. Although production reached record levels during the Second World War, management feared a recurrence of the collapse that had followed World War I. It also faced the prospect of increased competition from oil and natural gas and the loss of traditional markets such as home heating and locomotive fuel. As a result Consol opened negotiations with another large producer, the Pittsburgh Coal Company, which was the dominant operator in the Pittsburgh District.

The Pittsburgh Coal Company

The Pittsburgh Coal Company was a product of the great industrial merger movement of the late 1890s. In 1899, two large mergers were effected in the Pittsburgh District.

The Monongahela River Consolidated Coal and Coke Company was incorporated in Pennsylvania on October 1, 1899 to merge the properties of over 90 small firms operating mines along the Monongahela River south of Pittsburgh. Some of these operations dated to the early 1800s, and all of them shipped coal down the Ohio-Mississippi River system by barge from close to the mine mouth, or later by the railroads built along the river banks. The combination controlled 40,000 acres of coal land, 100 steam towboats, 4,000 barges, and facilities for handling coal at Cincinnati, Louisville, Vicksburg, Memphis, Baton Rouge and New Orleans.

The Pittsburgh Coal Company was incorporated in New Jersey as a holding company on September 1, 1899 and acquired the properties of over 80 operators located in the areas back from the river on both sides of the Monongahela south of Pittsburgh. The combination was engineered by some of the most prominent Pittsburgh industrialists, including Andrew W. Mellon, Henry W. Oliver, and Henry Clay Frick. It controlled over 80,000 acres and six collector railroads, the longest of which was the Montour Railroad. Most of its output was shipped by rail, with a large share being transferred to ships on the Great Lakes for distribution throughout the industrial Midwest. The company owned coal docks and yards at Chicago, Cleveland, Duluth, West Superior, Sault Ste. Marie, Ashtabula, Fairport and Thornburg. Subsequently, the company expanded in southwestern Pennsylvania and the Hocking Valley of Ohio through the lease of the Shaw Coal Company in 1901 and the purchase of the Midland Coal Company in 1903. Most of the properties were vested in a separate Pittsburgh Coal Company, an operating company incorporated in Pennsylvania.

Unlike the Consolidation Coal Company, which had grown by gradual accretion, the Pittsburgh Coal Company had been created in a single stroke. As with many mergers of the period, its capitalization probably contained a high percentage of "water" in anticipation of profits from future growth. Unfortunately, the years after the merger saw explosive growth in the coal fields of Southern Appalachia instead. Although farther from major consuming centers, they enjoyed several advantages. The coal itself was superior, low-volatile with higher BTU content and altogether cleaner than the high-volatile coals of Ohio and the Pittsburgh District. As already noted, the southern mines were also non-union. With the inroads of Southern Appalachian coal, the Pittsburgh Coal Company continuously lost ground in the crucial Lake and western markets from 1900 to 1915. The company's capitalization proved unwieldy in the unsettled economic conditions following the Panic of 1907. A reorganization plan was devised under which a new Pittsburgh Coal Company was incorporated in Pennsylvania on January 12, 1916 by merging the old Pittsburgh Coal Company of Pennsylvania and the Monongahela River Consolidated Coal and Coke Company. The old holding company was then liquidated and the stock of the new operating company distributed to its stockholders. Dissension between the common and preferred stockholders delayed consummation of the plan until July 16, 1917.

The Pittsburgh Coal Company, which had all its operations in the Central Competitive Field, had a much more difficult time than Consolidation in breaking the 1923 Jacksonville Agreement with the United Mine Workers in 1925-1927 and reverting to non-union status. The three-year struggle ended the company's ability to pay dividends. Pittsburgh Coal survived the Depression without receivership but with ever-increasing arrearages on its preferred stock. By the end of World War II, its managers were just as eager as those at Consol to attempt greater economies through merger. The Pittsburgh Coal Company and the Consolidation Coal Company merged on November 23, 1945, with exchange ratios of 65 to 35 percent. Pittsburgh Coal Company, the surviving partner, changed its name to the Pittsburgh Consolidation Coal Company.

The Pittsburgh Consolidation Coal Company

After the merger, the M.A. Hanna Company interests of Cleveland became the dominant factor in Pitt-Consol's affairs. Hanna had transferred its pre-merger Consol stock to its subsidiary Bessemer Coal & Coke Corporation in 1943. This led to a restructuring whereby Pitt-Consol acquired Hanna's share of the North Western-Hanna Fuel Company in April 1946 and the Hanna coal properties in eastern Ohio on June 16, 1946 These included large reserves of strippable coal that accounted for about 20 percent of the state's production. Pitt-Consol later acquired Hanna's holdings of coal land in Harrison, Belmont and Jefferson Counties, Ohio, on December 30, 1949. It purchased the New York Central Railroad's 51 percent interest in the Jefferson Coal Company, giving it full control, in 1952 and merged it into the Hanna Coal Company Division.

Pitt-Consol sold its last major railroads, the Montour Railroad and the Youngstown & Southern Railway to the Pennsylvania Railroad and the Pittsburgh & Lake Erie Railroad on December 31, 1946. The Northwestern Coal Railway had been sold to the Great Northern system, and the Cumberland & Pennsylvania Railroad had been sold to the Western Maryland Railway in May 1944.

In addition, a new Research and Development Division was created to fund projects aimed at developing more efficient production methods, new outlets for coal consumption, coal-based synthetic fuels and chemical byproducts. A new coal gasification plant opened at Library, Pa., in November 1948, and the company began the manufacture of a smokeless fuel briquette under the trademark "Disco" at Imperial, Pa., in 1949. An experimental coal slurry pipeline was built in Ohio in 1952.

During the 1950s and early 1960s, Pitt-Consol made many changes in its coal holdings, selling high-cost or less desirable properties, diversifying its reserves across many different coal fields, rationalizing property lines to permit large mechanized underground or strip mines and forming joint ventures with steel companies to secure guaranteed customers. Pitt-Consol acquired the Jamison Coal and Coke Company in 1954 and the Pocahontas Fuel Company, Incorporated, a large producer of low-volatile Southern Appalachian coal, in 1956. In the latter year, it sold its Elkhorn Field properties to the Bethlehem Steel Corporation. As Pittsburgh District operations became less central, the corporate name was changed back to Consolidation Coal Company in April 1958.

The Consolidation Coal Company, CONOCO and CONSOL Energy, Inc.:

Consol continued to expand into the early 1960s. On April 30, 1962, it absorbed the Truax-Traer Coal Company of Illinois. Truax-Traer also mined lignite in North Dakota, a low-grade but low-sulfur coal that was taking a greater share of the power generation market as environmental laws placed greater restrictions on high-sulfur coal from the Central Competitive Field. The following year Consol acquired the Crozer Coal and Land Company and the Page Coal and Coke Company, owners of additional reserves of low-volatile, low-sulfur steam coal in southern West Virginia.

In 1966, just two years after the company marked its centennial, Consolidation Coal was acquired by the Continental Oil Company (Conoco). This was part of a general trend whereby U.S. oil companies extended their reach by acquiring coal reserves and large coal producers. In turn, Conoco was acquired by E.I. du Pont de Nemours & Company in 1981. This purchase was motivated by DuPont's desire to obtain better control of chemical feedstocks in an era of high oil prices. Consolidation Coal was not a major factor in the Conoco acquisition and did not really fit into DuPont's strategy, especially after coal and oil prices declined. As a result, it was quickly sold off when DuPont was restructured a decade later. In 1991, a new holding company CONSOL Engery, Inc. was incorporated as a joint venture of DuPont Energy Company and the German energy conglomerate Rheinisch-Westfalisches Elektrizitatswerk A.G., through its wholly owned subsidiaries Rheinbraun A.G. and Rheinbraun U.S.A. GmbH. Consolidation Coal Company became a wholly-owned subsidiary of CONSOL Energy, Inc. DuPont eventually sold most of its half interest, so that by 1998, Rheinbraun affiliates owned 94% of CONSOL Energy stock, while DuPont Energy retained only 6%. CONSOL Energy purchased the entire stock of the Rochester & Pittsburgh Coal Company on September 22, 1998. CONSOL Energy stock began trading on the New York Stock Exchange under the symbol "CNX" in 1999, with an initial public offering of more than 20 million shares.

CONSOL Energy produced more than 74 million tons of coal in 1999, accounting for approximately 7% of domestic production. The company currently operates 22 mining complexes, primarily east of the Mississippi River.

Source

Historical note from the Consolidation Coal Company Records, Archives Service Center, University of Pittsburgh

Related Materials:

Materials in the Archives Center

The Archives Center holds a number of collections that document coal.

Coal and Gas Trust Investigation Collection (AC1049)

Hammond Coal Company Records (AC1003)

Lehigh Coal and Navigation Company Records (AC0071)

Lehigh Valley Coal Company Records (AC1106)

Philadelphia and Reading Coal and Iron Company Records (AC0282)

Materials in Other Organizations

Archives Service Center, University of Pittsburgh

CONSOL Energy, Inc. Mine Maps and Records Collection, 1857-2002

AIS.1991.16

The CONSOL Energy Inc. collection contains coal mine maps, related documents and topographical information, as well as surface maps and detailed information on mine accidents. Additionally, there are technical drawings, outside notes on multiple mines, traverse and survey books, information on companies and railroads with which CONSOL conducted business, and a variety of non-print materials including photographs, negatives and aperture cards. Digital reproductions of selected material are available online.

CONSOL Energy Inc. West Virginia and Eastern Ohio Mine Maps and Records Collection, 1880-1994

AIS.2004.22

The CONSOL Energy Inc. West Virginia and Eastern Ohio Mine Maps and Records Collection contains coal mine maps as well as surface maps and detailed information on mine accidents in West Virginia and Eastern Ohio. Additionally, there are technical drawings, related documents, traverse and survey books, publications and photographs.

Consolidation Coal Company Records, 1854-1971, bulk 1864-1964

AIS.2011.03

The Consolidation Coal Company (Consol) was created by the merger of several small operators mining the Georges Creek coal basin in Allegany County, Maryland. The company expanded rapidly in the early twentieth century through the purchase of substantial tracts in the coal fields of Pennsylvania, West Virginia, and Kentucky as well as docks and distribution facilities in the Great Lakes region. By 1927, Consol was the nation's largest producer of bituminous coal. Following a merger with the Pittsburgh Coal Company in 1945, the company pursued a policy of acquiring companies which afforded opportunities for greater diversification while selling off unprofitable lines. In addition, a new research and development division was created to fund projects aimed at developing more efficient production methods and new outlets for coal consumption. The records of the Consolidation Coal Company and its affiliated companies are arranged in seven series. Minute books and contract files provide the most comprehensive documentation in this collection.

Provenance:

Donated to the National Museum of American History in 1987 by Bethlehem Steel Corporation.

Restrictions:

Collection is open for research but is stored off-site and special arrangements must be made to work with it. Contact the Archives Center for information at archivescenter@si.edu or 202-633-3270.

Rights:

Collection items available for reproduction, but the Archives Center makes no guarantees concerning intellectual property rights. Archives Center cost-recovery and use fees may apply when requesting reproductions.

Topic:

Mining corporations  Search this

Mining -- West Virginia  Search this

Mining -- Pennsylvania  Search this

Mining -- Maryland  Search this

Company towns  Search this

Mining -- Kentucky  Search this

Mines -- West Virginia  Search this

Mines -- Pennsylvania  Search this

Mines -- Maryland  Search this

Mines -- Kentucky  Search this

Mining and minerals industry  Search this

Genre/Form:

Photographs -- Black-and-white negatives -- 20th century

Photographs -- 20th century

Photograph albums -- 20th century

Citation:

Pittsburgh Consolidation Coal Company photographs and other materials, Archives Center, National Museum of American History

Identifier:

NMAH.AC.1007

See more items in:

Pittsburgh Consolidation Coal Company photographs and other materials

Archival Repository:

Archives Center, National Museum of American History

GUID:

https://n2t.net/ark:/65665/ep86027ae9f-9a84-4277-adcf-d0b5e919ac6a

EDAN-URL:

ead_collection:sova-nmah-ac-1007

Creator:

Hallett, William E., 1864-1932  Search this

Names:

Alamo Engine Company  Search this

Hall Gas Engine Company Bucyrus, Ohio  Search this

Hayes Wheel Company Albion, Michigan  Search this

Former owner:

National Museum of American History (U.S.). Division of Work and Industry  Search this

Extent:

0.3 Cubic feet (1 box)

Container:

Box 1

Type:

Collection descriptions

Archival materials

Correspondence

Photographs

Clippings

Notebooks

Date:

1900-1925.

Scope and Contents note:

The collection relates to Hallett's career as an engineer and his work with engines. The collection includes correspondence, engineering notebooks, writings, photographs, patent materials, clippings, and publications,.

Arrangement:

1 series.

Biographical/Historical note:

Hallett was an engineer for the Alamo Manufacturing Company, and designed the first Alamo Engine. While employed with the Hall Gas Engine Company he developed a heavy-duty gas engine. His last position was divisional chief engineer for the Hayes Wheel Company in Albion Michigan.

Provenance:

Immediate source of acquisition unknown.

Restrictions:

Collection open for research on site by appointment. Unprotected photographs must be handled with gloves.

Rights:

Collection items available for reproduction, but the Archives Center makes no guarantees concerning copyright restrictions. Other intellectual property rights may apply. Archives Center cost-recovery and use fees may apply when requesting reproductions.

Topic:

Engines  Search this

Engineers  Search this

Patents  Search this

Genre/Form:

Correspondence -- 1900-1950

Photographs -- 1900-1950

Clippings -- 1900-1950

Notebooks -- 1900-1950

Citation:

William E. Hallett Papers, 1900-1925, Archives Center, National Museum of American History.

Identifier:

NMAH.AC.1112

Archival Repository:

Archives Center, National Museum of American History

GUID:

https://n2t.net/ark:/65665/ep8916805a7-2197-4b7a-9be6-ecc394cd9c95

EDAN-URL:

ead_collection:sova-nmah-ac-1112

Creator:

Lombard Governor Company.  Search this

American Lincoln Corporation  Search this

Donor:

Sorensen, William  Search this

Collector:

National Museum of American History (U.S.). Division of History of Technology  Search this

National Museum of American History (U.S.). Division of Mechanical and Civil Engineering  Search this

National Museum of American History (U.S.). Division of Work and Industry  Search this

Extent:

6.75 Cubic feet (7 boxes, 2 map folders)

Type:

Collection descriptions

Archival materials

Photographs

Patents

Price lists

Reports

Bulletins

Glass negatives

Blueprints

Catalogs

Date:

1898-1970s.

Scope and Contents:

The collection consists of records documenting the Lombard Governor Company: photographs (including glass plate negatives), blueprints, printed material, price lists, reports, catalogs and trade literature, bulletins, and a notebook of patents.

Arrangement:

Collection is arranged into three series.

Series 1: Printed Materials

Series 2: Glass Plate Negatives

Series 3: Blueprints

Biographical / Historical:

In 1894, Nathaniel Lombard developed the first practical water wheel governor in Roxbury, Massachusetts. Lombard's design incorporated hydraulics and a unique anti-racing device to move the gates of the largest turbines multiple times faster than any existing device. In 1904, the company moved to Ashland, Massachusetts. During the first World War, Lombard Governor produced hydraulic lathes for the manufacture of artillery shells, and special valves for the US government's Muscle Shoals nitrogen plant. At the conclusion of the war, Lombard expanded into the areas of chain saws and plastic molding injection machines. In 1962, the company changed its name to Lombard Industries. In 1964, Lombard Industries was acquired by American Lincoln Corporation and the operation was moved to Toledo, Ohio.

Provenance:

Collection donated by William Sorensen in 1962.

Restrictions:

Collection is open for research but is stored off-site and special arrangements must be made to work with it. Contact the Archives Center for information at archivescenter@si.edu or 202-633-3270.

Rights:

Collection items available for reproduction, but the Archives Center makes no guarantees concerning copyright restrictions. Other intellectual property rights may apply. Archives Center cost-recovery and use fees may apply when requesting reproductions.

Topic:

Hydraulic engineering  Search this

Turbines  Search this

Water-power  Search this

Water-wheels  Search this

Genre/Form:

Photographs -- 20th century

Patents

Photographs -- Black-and-white negatives -- 20th century

Price lists

Reports

Bulletins

Glass negatives

Blueprints

Catalogs

Citation:

Lombard Governor Company Records, 1898-1970, Archives Center, National Museum of American History.

Identifier:

NMAH.AC.1091

See more items in:

Lombard Governor Company Records

Archival Repository:

Archives Center, National Museum of American History

GUID:

https://n2t.net/ark:/65665/ep838c9af77-d267-4831-91c2-ac3e21f51008

EDAN-URL:

ead_collection:sova-nmah-ac-1091

Creator:

Green, Mary E.  Search this

Former owner:

National Museum of American History (U.S.). Division of Extractive Industries  Search this

National Museum of American History (U.S.). Division of Work and Industry  Search this

Extent:

2.5 Cubic feet (6 boxes and 1 map-folder )

Type:

Collection descriptions

Archival materials

Manuals

Brochures

Posters

Pamphlets

Newsletters

Date:

1883-1980

Summary:

Over a period of approximately 25 years, Dr. Mary Eloise Green of Ohio State University collected a wide variety of materials pertaining to food preservation and home canning techniques. She acquired associated pamphlets, manuals, and recipe booklets from companies as well as governmental agencies.

Scope and Contents:

This collection contains printed materials on various aspects of food preservation, which includes canning, pickling, freezing, and other methods. Recipe books, instruction manuals, posters, brochures and pamphlets issued by the U.S. Department of Agriculture, by manufacturers of food products, and by manufacturers of canning and preserving products and devices; also newsletters published by bottle and jar collecting hobby groups. A large percentage of the publications in the collection were published during World War II, and relate to preserving food to ensure an adequate food supply during the war years.

Arrangement:

The collection is arranged into four series.

Series 1, Product Literature, 1880s-1970s

Series 2, Price Guides, 1970-1977

Series 3, General Publications, 1934-1980

Series 4, Posters, undated

Biographical / Historical:

Dr. Mary E. Green, a professor in the Food and Nutrition Division of the School of Economics at Ohio State University, studied and collected documentation and artifacts pertaining to the home preservation of food.

Related Materials:

Researchers should also consult the Louisan E. Mamer Rural Electrification Administration Papers, 1927-2002 (AC #862).

Separated Materials:

The Division of Work and Industry holds artifacts related to this collection (Accession #322793) including canning jars and food preservation devices.

Provenance:

This collection was donated by Mary E. Green on October 1, 1976.

Restrictions:

Collection is open for research but is stored off-site and special arrangements must be made to work with it. Contact the Archives Center for information at archivescenter@si.edu or 202-633-3270.

Rights:

Collection items available for reproduction, but the Archives Center makes no guarantees concerning copyright restrictions. Other intellectual property rights may apply. Archives Center cost-recovery and use fees may apply when requesting reproductions.

Topic:

Cookery, American  Search this

Frozen foods  Search this

Canning and preserving  Search this

Food industry and trade  Search this

Food conservation  Search this

World War, 1939-1945 -- Food supply  Search this

advertising  Search this

Genre/Form:

Manuals

Brochures

Posters

Pamphlets

Newsletters

Citation:

Food Preservation and Home Canning Literature Collection, 1883-1980, Archives Center, National Museum of American History

Identifier:

NMAH.AC.1061

See more items in:

Food Preservation and Home Canning Literature

Archival Repository:

Archives Center, National Museum of American History

GUID:

https://n2t.net/ark:/65665/ep8ca0a037c-1e5b-4cab-9919-08704687dfe0

EDAN-URL:

ead_collection:sova-nmah-ac-1061

Author:

Bennett, Harold 1915-  Search this

Author:

Bennett, Judy  Search this

Physical description:

96 p illustrations (part color), ports 27 cm

Type:

Books

catalogs (documents)

Catalogs

Catalogues

Date:

1970

Topic:

Glassware--Private collections  Search this

Call number:

NK5112.C3 B47

NK5112.C3 B47

Data Source:

Smithsonian Libraries

EDAN-URL:

edanmdm:siris_sil_7635

Collection Creator:

Wright-Patterson Air Force Base (Ohio)  Search this

Container:

Box D600, Folder D52.1 Douglas / 692

Type:

Archival materials

Date:

Jan. 20, 1942.

Scope and Contents:

Airplanes - SBD 3; War dept. - Technical order 01-40AE-1 First series

Collection Restrictions:

No restrictions on access

Collection Rights:

Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests

See more items in:

Wright Field Technical Documents Library

Wright Field Technical Documents Library / D52.1 - Airplanes (arranged alphabetically) / D / Douglas

Archival Repository:

National Air and Space Museum Archives

GUID:

https://n2t.net/ark:/65665/pg2ce61e8c3-f11a-42b8-8cc8-b7cafcc37a40

EDAN-URL:

ead_component:sova-nasm-xxxx-0428-ref2413

Collection Creator:

Wright-Patterson Air Force Base (Ohio)  Search this

Container:

Box D615, Folder D52.1 F8F / 1

Type:

Archival materials

Date:

May 6, 1946.

Scope and Contents:

Airplanes - F8F

Collection Restrictions:

No restrictions on access

Collection Rights:

Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests

See more items in:

Wright Field Technical Documents Library

Wright Field Technical Documents Library / D52.1 - Airplanes (arranged alphabetically) / F / F8F

Archival Repository:

National Air and Space Museum Archives

GUID:

https://n2t.net/ark:/65665/pg2201178da-1159-41b2-9380-ec0a19ebc4b6

EDAN-URL:

ead_component:sova-nasm-xxxx-0428-ref2921

Collection Creator:

Wright-Patterson Air Force Base (Ohio)  Search this

Container:

Box D619, Folder D52.1 Fokker / 106

Type:

Archival materials

Date:

March 1927

Scope and Contents:

Airplanes - Fokker RO 1

Collection Restrictions:

No restrictions on access

Collection Rights:

Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests

See more items in:

Wright Field Technical Documents Library

Wright Field Technical Documents Library / D52.1 - Airplanes (arranged alphabetically) / F / Fokker

Archival Repository:

National Air and Space Museum Archives

GUID:

https://n2t.net/ark:/65665/pg279790e26-1a9e-4c5c-8aa7-0b61fd8197dc

EDAN-URL:

ead_component:sova-nasm-xxxx-0428-ref3101

Collection Creator:

Wright-Patterson Air Force Base (Ohio)  Search this

Container:

Box D620, Folder D52.1 General / 1

Type:

Archival materials

Date:

January 1930

Scope and Contents:

Airplanes - General - 107

Collection Restrictions:

No restrictions on access

Collection Rights:

Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests

See more items in:

Wright Field Technical Documents Library

Wright Field Technical Documents Library / D52.1 - Airplanes (arranged alphabetically) / G / General

Archival Repository:

National Air and Space Museum Archives

GUID:

https://n2t.net/ark:/65665/pg2c5f9e6ef-6c58-4fd6-a2ac-8ca4b331870b

EDAN-URL:

ead_component:sova-nasm-xxxx-0428-ref3146

Collection Creator:

Wright-Patterson Air Force Base (Ohio)  Search this

Container:

Box D620, Folder D52.1 General / 7

Type:

Archival materials

Date:

12 April 1933

Scope and Contents:

Airplanes - General O 27 ;

Collection Restrictions:

No restrictions on access

Collection Rights:

Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests

See more items in:

Wright Field Technical Documents Library

Wright Field Technical Documents Library / D52.1 - Airplanes (arranged alphabetically) / G / General

Archival Repository:

National Air and Space Museum Archives

GUID:

https://n2t.net/ark:/65665/pg206edaf91-48cb-4aab-ae50-284a80049b8b

EDAN-URL:

ead_component:sova-nasm-xxxx-0428-ref3149

Collection Creator:

Wright-Patterson Air Force Base (Ohio)  Search this

Container:

Box D623, Folder D52.1 Gwinn / 1

Type:

Archival materials

Date:

n.d.

Scope and Contents:

Gwinn Aircar Company; Airplanes - Gwinn - Aircar

Collection Restrictions:

No restrictions on access

Collection Rights:

Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests

See more items in:

Wright Field Technical Documents Library

Wright Field Technical Documents Library / D52.1 - Airplanes (arranged alphabetically) / G / Gwinn

Archival Repository:

National Air and Space Museum Archives

GUID:

https://n2t.net/ark:/65665/pg294f78093-2b09-466f-b8c9-73422a07a5c9

EDAN-URL:

ead_component:sova-nasm-xxxx-0428-ref3291

Collection Creator:

Wright-Patterson Air Force Base (Ohio)  Search this

Container:

Box D628, Folder D52.1 Lawson / 2

Type:

Archival materials

Date:

n.d.

Scope and Contents:

Airplanes - Lawson Air Liner

Collection Restrictions:

No restrictions on access

Collection Rights:

Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests

See more items in:

Wright Field Technical Documents Library

Wright Field Technical Documents Library / D52.1 - Airplanes (arranged alphabetically) / L / Lawson

Archival Repository:

National Air and Space Museum Archives

GUID:

https://n2t.net/ark:/65665/pg21f7f46a8-370d-4a4f-858e-c89fef203575

EDAN-URL:

ead_component:sova-nasm-xxxx-0428-ref3542

Collection Creator:

Wright-Patterson Air Force Base (Ohio)  Search this

Container:

Box D630, Folder D52.1 Lockheed / 391

Type:

Archival materials

Date:

6 Apr 1944

Scope and Contents:

Drake, Robert. M; Airplanes - Lockheed P 38 - Radiators

Collection Restrictions:

No restrictions on access

Collection Rights:

Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests

See more items in:

Wright Field Technical Documents Library

Wright Field Technical Documents Library / D52.1 - Airplanes (arranged alphabetically) / L / Lockheed

Archival Repository:

National Air and Space Museum Archives

GUID:

https://n2t.net/ark:/65665/pg29c15d907-771e-4288-8f12-da517848b28a

EDAN-URL:

ead_component:sova-nasm-xxxx-0428-ref3636

Collection Creator:

Wright-Patterson Air Force Base (Ohio)  Search this

Container:

Box D639, Folder D52.1 Mitsubishi / 7

Type:

Archival materials

Date:

4 Oct 1923

Scope and Contents:

Airplanes - Mitsubishi; Military Intelligence Division - Japan 22; Airplanes - Production - Japan;

Collection Restrictions:

No restrictions on access

Collection Rights:

Material is subject to Smithsonian Terms of Use. Should you wish to use NASM material in any medium, please submit an Application for Permission to Reproduce NASM Material, available at Permissions Requests

See more items in:

Wright Field Technical Documents Library

Wright Field Technical Documents Library / D52.1 - Airplanes (arranged alphabetically) / M / Mitsubishi

Archival Repository:

National Air and Space Museum Archives

GUID:

https://n2t.net/ark:/65665/pg243dca860-84ac-441a-b318-9d53cd57ac10

EDAN-URL:

ead_component:sova-nasm-xxxx-0428-ref3880