A History of Welding Web Site - Welding Timeline Years 1900-1950

Welding Timeline

Years 1900-1950

1900

E. Fouch and F. Picard develops oxyacetylene torch in France.

1901

Menne invented the Oxygen Lance in Germany.
Soon after Charles Picards invention of the oxyacetylene blowpipe in Paris France, this invention was called upon to repair a cast iron part on an acetylene pump. Quite by accident, the filler metal had enough silicon present to prevent the formation of the excessively hard white iron.

1902

President Teddy Roosevelt took over the Panama Canal project from the French.

1903

Hans Goldschmidt of Essen, Germany invented Thermit Welding (TW), an exothermic reaction between aluminum powder and a metal oxide.. Used to weld railroad rails together.
Oxyacetylene is applied commercially.

1904

Concentrated Acetylene Company invents the portable cylinder for the auto headlights.

1905

L. W. Chubb of Westinghouse Electric & Manufacturing, East Pittsburg, PA, experiments with electrolytic condensers and rectifiers and found that wires could be connected to aluminum plates. Also found that copper could be joined in a like manner. When the cells discharged, sparks were formed.

1907

Two German welders came to the U.S. and formed Siemund-Wienzell Electric Welding Co. and patented a metal arc welding method. Another German formed company, Enderlein Electric Welding Co. also started up. This was the beginning of the arc welding industry in the U.S.
Lincoln Electric Company of Cleveland Ohio began by manufacturing electric motors in 1895. By 1907, Lincoln Electric were manufacturing the first variable voltage DC welding machine.

1907-1914

Oscar Kjellberg (pronounced 'Shellberg') of Sweden and the ESAB (Elektriska Svetsnings-AtkieBolaget) Company invented the covered or coated electrode by dipping bare iron wire in thick mixtures of carbonates and silicates. The purpose of the coating was to protect the molten metal from oxygen and nitrogen. His pioneering of covered electrode development paved the road during the next twenty years in the research of reliable flux coated electrodes.

1908

Oscar Kjellberg received German Patent No. 231733 for the coated welding electrode.

1909

Strohmenger developed the Quasi-arc electrode which was wrapped in asbestos yarn.
The keel of the H.M.S. TITANIC was laid on March 31 at Harland and Wolff shipyard.
Schonner, a physicist with BASF (Badischen Anilen und SodaFabrik) invents the plasma arc system using a gas vortex stabilized arc.
First industrial application of plasma at BASF (Badische Anilin und Sodafabrik) by a physicist manufacturing nitrogen dioxide (NO₂).

1910

Charles Hyde of Great Britain is issued a patent for brazing steel tubes. By clamping two pieces into position, copper is placed in the joints as metallic strips, plating or powder mixed in a paste. Heated in a hydrogen furnace (oxygen-free atmosphere) and by capillary attraction flows copper into the joint

1911

H.M.S. TITANIC is launched on May 31.
First attempt to lay 11 miles of pipeline using oxyacetylene welding near Philadelphia, Pennsylvania.
American physicist (Matters) developed a plasma arc torch for heating a metal fusing furnace.

1912

Lincoln Electric Co. introduced the first welding machines after experimentation started in 1907.
E. G. Budd Spot Welds (SW) the first automobile body in Philadelphia, Pennsylvania.
Langmuir gives the "plasma" to a gas or gas mixture brought to such a high temperature that all diatomic molecules are dissociated and the atoms partially ionized and where all monotomic gases are fully ionized.
Firecracker welding technique, a version of shielded metal arc welding is patented in Germany.
Strohmenger introduced coated metal electrodes in Great Britain. The electrodes had a thin wash coating of lime or clay resulting in a stable arc.
Strohmenger obtained US patent covering an electrode coated with a blue asbestos with a binder of Sodium Silicate (NAXX). This was the first electrode which produced weld metal free of impurities.

1913

Avery and Fisher develop the acetylene cylinder in Indianapolis, Indiana.

1914

A 34 mile pipeline was laid near Enid, Oklahoma using oxyacetylene welding for the oil industry.

1915-1916

Underwater cutting was carried out but interest did not come about until 1926.

1916

Companies licensed resistance welding equipment, mostly spot welding was the intended use.

1917

Because of a gas shortage in England during World War I, the use electric arc welding to manufacture bombs, mines, and torpedoes became the primary fabrication method.

1918

Admiralty testing of metal-arc welding on Barge Ac 1320 leads Lloyd's Register to permit metal-arc welding in main structures on an experimental basis.

1917-1920

During World War I, a Dutchman, Anthony Fokker, began using welding in the production of Fuselages in German fighter planes.
HMS Fulagar was first all welded hull vessel - Great Britain.
The repair of sabotaged German ships in New York Harbor highlighted the first important use welding because the German merchant marines tried to destroy the ships boilers on 109 ships. A team of engineers from a railroad company (possibly the Rock Island Line) was tasked to the repair. Later, 500,000 troops were delivered to the European War in France using these repaired ships. The success of the weld repairs catapulted welding to the arena for manufacturing and repair and dashed it sordid past as a controversial operation.

1919

President Woodrow Wilson established The United States Wartime Welding Committee of the Emergency Fleet Corporation under the leadership of Dr. Comfort Avery Adams.
Dr. Comfort Avery Adams, held a meeting on January 3rd to form the "American Welding Society ". The Constitution of this meeting was approved on March 27.
C. J. Holslag used Alternating Current (AC) for welding, but this was not popular until 1930.
The AWS Constitution of the January meeting was approved on March 27.
Reuben Smith developed and patented the paper-coated electrode. The weld did not leave a slag and produced an acceptable weld.

1920s

Various welding electrodes were developed:
- Mild steels electrodes for welding steels of less than 0.20% carbon;
- Higher carbon and alloy electrodes; and
- Copper alloy rods.
Researchers found that Oxygen (O₂) and Nitrogen (N₂) when in contact with molten metal caused brittle and porous welds.
Alexandre and Langmuir, from General Electric Co., used Hydrogen in chambers to weld. Began with two carbon electrodes and later switched to Tungsten.
Bundy-Weld of Bundy Company, Detroit Michigan uses sheetmetal coated with a copper paste and is rolled tightly around itself and placed in a furnace. The brazed joint is formed into one piece tubing.
The automotive industry began using Automatic Welding with a bare wire fed to the workpiece to the production of differential housings.
Poughkeepsie Socony (1235 tons), the first all-welded tanker was launched in the USA.

1920

P.O. Nobel of General Electric Company developed automatic welding, using Direct Current (DC) using the arc voltage to regulate feed rate. Primary use was to repair worn motor shafts and crane wheels.
The British ship "Fulagar" was constructed by the Cammell-Lairds and launched. In 1924, the ship grounded. A report in the British "Journal of Commerce" (July 17, 1924) reported that she held steadfast and if rivets were used in the construction, the ship would surely have opened up and not be able to get off the bank.
After WW I, the Treaty of Versailles limited the Germans from designing and building ships in excess of 10, 000 tons for armored ships and cruisers not to exceed 6,000 tons. Welding was an experimental production option before WW I but the Germans used it to develop the next stage of warships by saving weight whereby the ship could then carry more armament or armor plating in selected areas.
Torch brazing is in full swing using silver and gold filler metals and mineral fluxes as protective cover.
Electrification of Russia begins utilizing hydroelectric power sources.

1921

Leslie Hancock pioneered flame cutting machine where the burner followed the path of a magnetized stylus tracking around the contour of a metal template. The stylus is propelled by a gramophone motor.

1922

"No longer in the tones of a Walt Whitmanesque muscular America, the skyscraper celebrated the technology that was bringing the world together."
The first issue of the "Proceedings of the American Welding Society" was published in January (Vol. 1, No. 1). The name was changed in February, the next month, to "Journal of American Welding Society ".
The Prairie Pipeline Company weld an 8 inch diameter pipeline 140 miles long to carry crude oil from Mexico to Jacksboro, Texas. The advantage of welding over fittings saved the project 35 percent and the cost of weld, labor and material was $2.00 per welded joint.

1923

Institute of Welding Engineers was formed and headquartered in New York City.
Naval Research Laboratory (NRL) was formed by the US Government which was motivated by Thomas Edison's belief that history demonstrates a relationship between technological innovation and national security.

1924

1st all-welded steel buildings constructed in U.S. by General Boiler Co. "to the exclusion of rivets".
Resistance, gas and metallic arc welding in the manufacturing of all steel automobile bodies at the E.G. Budd Manufacturing Company.
Mechanical flash welder used for joining rails together.
First recognition of welding design was presented in papers written by: J. C. Lincoln, S. W. Miller, C. J. Holslag, H. A. Woofter, and J. H. Deppler.

1925

ASME Boiler Code Construction Code Section VIII is issued for unfired pressure vessels.
AWS Board of Directors approves "Standardization of Hose Connections for Welding, and Cutting Torches and Regulators"
AWS held First Welding Show with the National Fall Meeting, 21-23 October, in Boston.
A.O. Smith fabricates a single-piece heavy walled pressure vessel entirely by welding and was PUBLICLY tested then placed in an oil cracking service.

1926

H.M. Hobart and P.K. Devers used atmospheres of Helium and Argon for welding with a bare rod inside the atmosphere. Due to the impurities of the inert gases and the corresponding high cost along with a lack of knowledge about current density, commercial applications were not realized at this time.
UNA-METHOD - Trade name for the rail joint welding process, arc welding apparatus, electrodes and supplies. UNA Welding & Bonding Co. Cleveland Ohio.
FUSARC - (need info)...?
Irving Langmuir, a noted chemist (Nobel Peace Prize winner in Chemistry, 1932) with General Electric Co. developed the Atomic Hydrogen Welding (AHW) Process. Coauthored with R. A. Weinman the paper was "Atomic Hydrogen Arc Welding"
Naval Research Laboratory (NRL) employee, P. W. Swain authored a paper "X-ray tests of weld " which was to have an impact with the welding industry much longer than the introduction of Atomic Hydrogen Arc Welding. The technique used a gamma-ray radiation as a shadow method to detect flaws in cast or welded steels. The techniques was used to detect flaws on the US Navy 9000 tonne heavy cruisers. The process was later identified as a Nondestructive test method and contributed to the success of developing improved steel castings for the U.S. Navy.
Landstroth and Wunder of A. O. Smith Co. solid extruded heavy coatings for metal-arc welding electrodes.

1927

Lindberg's Ryan monoplane fuselage was manufactured with welded steel alloy tubing.
Soviet Union production of Resistance Welding machines at Elektrik Works called the "AT-8" and the "ATN-8: apparatus's for spot-welding and the "AS-1" and the "AS-25-1" for buttwelding.
John J. Chyle of A. O. Smith Corp. invented and patented the first extruded, all-position, cellulosic, titanium dioxide later classified as E6010 type welding electrode.

1928

In East Pittsburgh, Pennsylvania, on the Turtle Creek, Americas First All-Welded Railroad Bridge was erected by Westinghouse Electric and Manufacturing Company. Westinghouse used the bridge to transport the large generators from facilities to the rest of the country by way of the railways. Weighing in at 20,000 pounds and at 62 foot long, the bridge was manufactured without the use of rivets, a common method of bridge construction of those days. The testing of the bridge was completed by driving a locomotive on the bridge. (Information Courtesy of Mr. LaFave)
Code for Fusion Welding and Gas Cutting in Building Construction (predecessor of AWS D1.1) was issued by the American Welding Society.

1929

Lincoln Electric Co. started production of heavy coated electrodes (Fleetweld 5) and sold the electrodes to the public. Sues A.O. Smith and wins.
1st European All-Welded bridge in Lowicza, Poland. Designed in 1927 by Professor Stefana Bryly and spanning the Sludwie River this bridge was still in use as late as 1977, whereby it was being replaced with a newer highway and bridge which is designed for wider traffic. The Polish Government planned to move the bridge 80 meters up stream and establish the bridge as a historical monument. In 1995, AWS President ED Bohnart presented to the Government of Poland, the AWS Historic Welded Structure Award.
Welding symbols are established by the American Welding Society
General Electric experiments with "Controlled-Atmosphere Brazing", using hydrogen gas for copper to steel brazes.
Welding conferences are held on the campuses of Lehigh and Syracuse.

1930-1940s

Atomic hydrogen arc welding process developed. Found that hydrogen was liberated releasing heat, which was 1/2 of the BTU of acetylene. Used primarily for tools steels. Development included an automatic version of the process.

1930

Specifications for welding electrodes were beginning to be written.
H. M. Hobart issued Patent Number 1746081, for "Arc Welding" and P. K. Devers was issued Patent Number 1746191 for "Arc Welding" on Feb 4 for using a concentric nozzle with a wire feed. This became known later as Gas Metal Arc Welding (GMAW). Work was based on various atmospheres in 1926.
Germany started development work to find a suitable substitute for their dwindling supply of critical alloys. Experiments in the U.S. and Germany found that Thermoplastics when heated could be pressed together and obtain a permanent bond. In 1938 this principle was incorporated into "Hot Gas" welding technique. Thermoplastic rod and sheet were heated simultaneously by a stream of hot air while the rod was pressed into the sheet causing a bond. World War II forced Germany to further develop and use welded Thermoplastic as a corrosion resistant structural material.
Stud Welding (SW) was developed by the New York Navy Yard to fasten wood to steel.
Submerged arc welding developed by National Tube Co. in McKeesport, PA by Robinoff. Later sold rights to Linde Air Products and renamed UNION-MELT. Used in late 30s and early 40s in shipyards and ordnance factories.
1st all-welded merchant ship was built in Charleston, South Carolina.
Advancements in protective atmospheres that dissociate chromium oxide from the surface of stainless steel are performed in furnaces without the mineral flux and were found in laboratories with no commercial equivalence.

1931

E. G. Budd Manufacturing Company of Philadelphia spot welded stainless steel (18-8) and built the Privateer. The spot-welding was a process called "shotwelding" a proprietary process developed by E.G. Budd.
Combustion Engineering shipped the first commercial land boiler fabricated by ASME welding code to Fisher Body Div. of General Motors Corporation.

1932

Submerged Arc Welding (SAW) developed by National Tube Co. in McKeesport, PA by Robinoff. Later sold rights to Linde Air Products and renamed UNION-MELT. Used in late 30s and early 40s in shipyards and ordnance factories.
British Corporation Register and Lloyd's introduce revised rules and approvals for the use of welding on ships.

1933

Lincoln Electric Co. published 1st edition of "Procedure Handbook of Arc Welding Design and Fabrication" with the purpose to have its customers use arc welding efficiently. As a full service company, this book provided the customers a knowledge of welding education and training.
English Antiquarian, H. A. P. Littledale patents the "Littledale Process (British Patent No. 415,181)", following the same approach that Pliny and Theophilus wrote about from the past two millenniums. Mixing copper salts with seccotine glue ultimately would produce the following reaction {CuO+C -> Cu + CO} which is where brazing would theoretically be reached. The temperature the reaction takes place: 850C.

1934

1st All-welded Excavator - HARNISCHFAGER Corp.
1st All-welded British bridge - Middlesborough, England
Lloyd's Rules for pressure vessels permits inspection using X-Ray technology.
In Scotland, welding was beginning to be recognized as a separate crafts trade and the Trade Unions were opposed to this recognition. The General Secretary of the Boilermaker's Union argued that it was unfair to condemn any young man to a lifetime of welding. (Scotland). The Shipbuilding Employers insisted on the separate recognition.
Westinghouse introduces the "Ignitron" which would become the basis for resistance welding timing controllers.
American Welding Society presents John C. Lincoln the Samuel Wylie Miller Medal for "Meritorious Achievement". The award cited him for his work on the variable voltage machine, the ductility and strength of welds, the carbon arc automation process, and his efforts to expand the use of welding in many industries.

1935

Granulated flux developed in 1932 and a continuous bare wire feed became known as "Submerged Arc Welding (SAW)" and saw major applications in shipbuilding and pipe fabrication (see 1932 for a different account).
Solid extruded electrodes are introduce in Britain and subsequently the first British welding electrode standard written.
Welding has "Arrived" when London, England hosts 900 attendees at the "Great Symposium" on the "Welding of Iron and Steel"
Solar Aircraft Company of San Diego California develops a flux to combat welding problems with stainless steel manifolds for the U.S. Navy and was regarded as a closely-guarded military secret. Where flux is applied to the front of the weld, this was placed on the backside of weld, protecting from oxide formation. Later, the product was developed further to accommodate the Heliarc process.

1936

1st All-welded Box Girder Crane by HARNISCHFAGER Corp., Milwaukee WI.
1st All-welded Gear were fabricated by HARNISCHFAGER Corp. Milwaukee WI.
First Specification for Design, Construction, Alteration and Repair of Highway and Railway Bridges by Fusion Welding was issued by the American Welding Society.
Tentative Rules for the Qualification of Welding Processes and Testing of Welding Operators was submitted by AWS.
The Soviet Union at the Electrik Works started using the electronic control gears as the first valve timer with a thyristor contactor (RVE-1) for resistance welding.
Japan Welding Society stipulates the rules of qualification testing in "The Standard of Qualification for Arc Welding Operator".

1937

BS 538: Metal arc welding in mild steel, was issued, legitimizing arc welding structural applications.
Norman Cole and Walter Edmonds, metallurgists from California are granted a patent for their product named "Colmonoy". Derived from COLe and edMONds and allOY.

1938

The Welding Handbook, First Edition was printed and edited by William Sparagen and D. S. Jacobus.
Pressure vessel industry began implementing the high production value of Automatic Welding.
The German Shipbuilding Industry uses welding extensively to reduce the weight of warships and increase the overall size of the ship. This restriction was put in place after World War I.
K. K. Madsen of Denmark describes Gravity Welding as a specialized electrode holder and the mechanism which will maintain a covered electrode in contact with the workpiece.
A.F. Wall purchases Colmonoy and renames to Wall-Colmonoy (Detroit).

1939

Floyd C. Kelly of General Electric publishes "Properties of Brazed 12% Chrome Steel" as an early investigation of the strength of brazed joints. Aluminum Spot Welding saw application in the Aviation Industry. He describes:

Single lap tensile specimens

45 degree vee-type tensile specimen

Butt brazed tensile specimens.

Aluminum Spot Welding saw application in the Aviation Industry.
Ultrasonic Fluxless soldering patented in Germany. Process is conceived in 1936.
Air Arc Gouging is developed (USA).
Stud Welding (Nelson Stud Welding Co.) used by the US Navy to reduce time installing studs during fabrication of ships and aircraft carriers.

1940s

With World War II GTAW was found to be useful for welding magnesium in fighter planes, and later found it could weld stainless steel and aluminum.
Canadian Welding Society (CWS) formed.
Exchequer, first all-welded ship built at Ingalls Shipyard in Mississippi.
J. Dearden and H. O'Neill (UK) discuss "Weldability" in terms of carbon equivalencies.
Sun Shipbuilding Company builds the world's largest ocean-going tanker, I. Van Dyck (11650 DWT). This was the first large scale use of automatic welding applied in shipyard work.
First mass soldering technique, Dip Soldering, is used for Printed Wiring Boards (PWB) to keep up with the development of electronic equipment such as, Television, radios, etc.
Little advancement was made in brazing and there were no dry-hydrogen facilities, except for laboratories, for brazing Stainless steel and there were no vacuum furnaces.
Germany was using 85Ag-15Mn brazing alloys as the best high temperature filler metal available. Used for brazing hollow sheet metal blades used in the turbine engines and stators.

1940

Gas shielded metal arc welding developed by Hobart and Devers at Battelle Memorial Institute.

1941

Engineers at Northrup Aircraft Co. and Dow Chemical Co. developed the GMAW process for welding magnesium, and later licensed it to Linde Co. with a water cooled, small diameter electrode wires using CV power. Because of the high cost of inert gas, the cost savings were not recognized until much later.
PLUTO - PipeLine Under The Ocean was created using the Flash Weld (FW) process for 1000 miles of 3 inch diameter pipe, to assist in the invasion of Normandy Beach, France. Once in place, the pipeline began pumping 1 million gallons of petrol per day directly to depots deep in the French country side.
Friction Surfacing. H. Klopstock and A. R. Neelands "An Improved Method of Joining and Welding Metals" British Patent 572789, October 1941.

1942

Chief of Research, V. H. Pavlecka, and engineer Russ Meredith of Northrup Aircraft Inc. designed the Gas Tungsten Arc Welding (GTAW) process to weld magnesium and stainless steel. Alternate names are TIG (tungsten inert gas) and Argonarc and Heliarc. Heliarc is the term originally applied to the GTAW process. (Patent Number 2274631, 24 February 1942).
The invention of GTAW was probably the most significant welding process developed specifically for the aircraft industry and remained so until recently, with the Friction Sir Weld process of the 1990's. Mr. Northrup of Northrup Aircraft Inc. was a visionary who wanted an all-welded aircraft (i.e., manufacturing costs, and lightweightness of the aircraft). Meredith was working from research of Devers and Hobart at General Electric (1920s) who had experimented with tungsten arcs in non-oxidizing atmospheres. The high reactivity of magnesium (Northrup's dream metal) would cause problems with more conventional processes, so, Meredith to began developing a torch with better handling characteristics and would use inert gas enshrouding tungsten. Thus, the Heli-arc process.
From the Dec 1942 Welding Journal: "The full importance of arc welding on the future of magnesium alloys cannot be fully appreciated at this time but the fabrication of these strong light alloys has opened the possibilities that were not considered even a year ago. For the man in industry, this method of joining offers simplicity of structure, ease and speed of fabrication and over-all economy."
US Patent 2269369, Jan 6, 1942 issued to George Hafergut for Firecracker Welding.
Traveling 285 miles north of Edmonton Canada and barging 1100 miles north to the Norman Well refinery a base camp was setup to build the Canadian Oil (CANOL) project. Working for 20 months, 1800 miles of pipeline was laid along side of 2000 miles of road. The last weld was laid on 1 February 1944. On 1 April 1945 the wells were shut down.
Second Edition of the Welding Handbook was printed and issued.
SAW proves it worthiness during World War II with the building of the Liberty Ships.
G.L. Hopkins of Woolrich Arsenal defines the problem of cracking in alloy steels and hydrogen in welding electrodes.

1943

Union-Melt is now commonly referred to as Submerged Arc Welding (SAW). The process used rods rather than wire filler metal and could weld work pieces up to 2 -1/2 inches thick.
Sciaky (USA) markets the three-phase resistance welder.

1944

1st Low-hydrogen electrodes used in fabrication of alloy armor tanks vehicles by the Heil Corp in response to the chrome and nickel shortages from World War II for the U.S. Army.
The Bureau of Navy Aeronautics designed and E. G. Budd Mfg. built the "Conestoga", a stainless steel aircraft. Despite the success of the aircraft, aluminum and rivets became the influencing factor in aircraft design.

1945

After World War II, the Allies brought from Germany the alloy combination, 85Ag-15Mn which has a 1760°F brazing temperature.
ElectoBrazing is used for manufacturing shafts to gears.

1946

Sprayweld Process (US Patent 2361962) issued to Wall-Colmonoy uses an alloy powder spray which produces a smooth, welded deposits.
General Electric Co. Ltd. (UK) invents the Cold Pressure Welding Process.
High Frequency (HF) stabilized AC tungsten-arc welding is used for aluminum alloys.

1947

The Final Report of a Board of Investigation, ordered by the Secretary of the Navy, "To Inquire Into The Design and Methods of Construction of Welded Steel Merchant Vessels, 15 July 1946" was issued.
Canadian Welding Bureau was created as a division of the Canadian Standards Association
The Austrian Welding Society is formed and publishes a monthly magazine "Schweisstechnik"
Nicrobraz, developed by Robert Peaslee of Wall-Colmonoy, is a 2500°F nickel alloy braze filler metal used in hydrogen furnaces. Used for stainless steel fuel supply connecting injectors to injector pumps for 18 cylinder reciprocating engines. The fledgling aircraft engine industry needed something else for engines to experience a hot shutdown without blowing the silver braze filler metal out from the brazed joints. Typical alloy was 85Ag-15Mn (BAg-23).

1948

The Ohio State University Board of Trustees established the Department of Welding Engineering on January 1 as the first of its kind for a Welding Engineering curriculum at a University. OSU pioneered the Welding Engineering through an emphasis in the Industrial Engineering Department the previous nine years. The advantages of this engineering degree is 1) Enable satisfactory administration of problems relating to education and research in the welding field. 2) Recognition is given to the Welding Engineer as an entity among applied sciences. 3) A degree is authorized which is descriptive of a particular discipline imposed in training for professional work in the field.
Air Reduction Company develops the Inert-Gas Metal-Arc (MIG) process.
SIGMA Welding (Shielded Inert Gas Metal Arc) was developed to weld plate greater than1/8 inch instead of the "Heli-Arc" welding process. The arc is maintained in a shield of argon gas between the filler metal electrode and the workpiece. No flux is used. Licensed by Linde Air Products Co.

1948-1949

Curtiss-Wright Corporation looks at brazing as a strong, lightweight process for durable assemblies.

1949

American Westinghouse introduces and markets welding machines using Selenium Rectifiers.
US Navy uses inert-gas metal arc welding for aluminum hulls of 100 feet in length.

1950

The Kurpflaz Bridge in Germany was built as the first welded orthotropic deck.