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Your Position: Home - Laser Cutting Machines - The History of Welding | MillerWelds

The History of Welding | MillerWelds

Author: Polly

Aug. 13, 2024

The History of Welding | MillerWelds

Welding has been around since ancient times. Read this article for a brief overview of welding history throughout the years.

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History of welding timeline

Welding can trace its historic development back to ancient times. The earliest examples of welding come from the Bronze Age. Small gold circular boxes were made by pressure welding lap joints together. It is estimated that these boxes were made more than 2,000 years ago. During the Iron Age the Egyptians and people in the eastern Mediterranean area learned to weld pieces of iron together. Many tools were found that were made in approximately B.C.

During the Middle Ages, the art of blacksmithing was developed and many items of iron were produced that were welded by hammering. It was not until the 19th century that welding as we know it today was invented.

Historians credit Edmund Davy of England with the discovery of acetylene in . Sir Humphry Davy produced an arc between two carbon electrodes using a battery in . In the mid-19th century, the electric generator was invented and arc lighting became popular. Gas welding and cutting developed during the late s. Arc welding with the carbon arc and metal arc was developed and resistance welding became a practical joining process.

Auguste De Meritens, working in the Cabot Laboratory in France, used the heat of an arc for joining lead plates for storage batteries in the year . It was his pupil, a Russian, Nikolai N. Benardos, working in the French laboratory, received a patent for welding. He, with a fellow Russian, Stanislaus Olszewski, secured a British patent in and an American patent in . The patents show an early electrode holder. This was the beginning of carbon arc welding. Benardos restricted his efforts to carbon arc welding, although he was able to weld iron as well as lead. Carbon arc welding became popular during the late s and early s.

In , C.L. Coffin of Detroit received the first U.S. patent for an arc welding process using a metal electrode. This was the first record of the metal melted from the electrode carried across the arc to deposit filler metal in the joint to make a weld. About the same time, N.G. Slavianoff, a Russian, presented the same idea of transferring metal across an arc, but to cast metal in a mold.

Approximately , Strohmenger introduced a coated metal electrode in Great Britain. There was a thin coating of clay or lime, but it provided a more stable arc. Oscar Kjellberg of Sweden invented a covered or coated electrode during the period of to . He produced stick electrodes by dipping short lengths of bare iron wire in thick mixtures of carbonates and silicates and allowing the coating to dry.

Meanwhile, resistance welding processes developed, including spot welding, seam welding, projection welding and flash butt welding. Elihu Thompson originated resistance welding. His patents dated -. In , a German named Goldschmidt invented thermite welding that was first used to weld railroad rails.

Gas welding and cutting were perfected during this period as well. The production of oxygen and later the liquefying of air, along with the introduction of a blow pipe or torch in , helped the development of both welding and cutting. Before , hydrogen and coal gas were used with oxygen. However, in about a torch suitable for use with low-pressure acetylene was developed.

World War I brought a tremendous demand for armament production, growing the need for welding. Many companies sprang up in America and in Europe to manufacture welding machines and electrodes to meet the requirements.

Immediately after the war in , 20 members of the Wartime Welding Committee of the Emergency Fleet Corporation, under the leadership of Comfort Avery Adams, founded the American Welding Society as a nonprofit organization dedicated to the advancement of welding and allied processes.

C.J. Holslag invented alternating current in ; however, it did not become popular until the s when the heavy-coated electrode found widespread use.

In , P.O. Nobel of the General Electric Company invented automatic welding. It utilized bare electrode wire operated on direct current and used arc voltage as the basis of regulating the feed rate. General Electric used automatic welding to build up worn motor shafts and worn crane wheels. The automobile industry also used it to produce rear axle housings.

During the s, various types of welding electrodes were developed. There was considerable controversy during the s about the advantage of the heavy-coated rods versus light-coated rods. In , Langstroth and Wunder of the A.O. Smith Company developed heavy-coated electrodes. Then in , Lincoln Electric Company produced extruded electrode rods and sold them to. the public. By , covered electrodes were widely used. Welding codes appeared that required higher-quality weld metal, which increased the use of covered electrodes.

During the s there was considerable research in shielding the arc and weld area by externally applied gases. The atmosphere of oxygen and nitrogen in contact with the molten weld metal caused brittle and sometimes porous welds. Researchers tested welds utilizing gas shielding techniques. Alexander and Langmuir did work in chambers using hydrogen as a welding atmosphere. They utilized two electrodes, starting with carbon electrodes but later changing to tungsten electrodes. The hydrogen was changed to atomic hydrogen in the arc. It was then blown out of the arc forming an intensely hot flame of atomic hydrogen turning to the molecular form and liberating heat. This arc produced half again as much heat as an oxyacetylene flame. This became the atomic hydrogen welding process. Atomic hydrogen never became popular but was used during the s and s for special applications of welding and later on for welding of tool steels.

H.M. Hobart and P.K. Devers were doing similar work but using atmospheres of argon and helium. In their patents applied for in , arc welding utilizing gas supplied around the arc was a forerunner of the gas tungsten arc welding process. They also showed welding with a concentric nozzle and with the electrode being fed as a wire through the nozzle. This was the forerunner of the gas metal arc welding process.

Welders at the New York Navy Yard developed stud welding in , specifically for attaching wood decking over a metal surface. Stud welding became popular in the shipbuilding and construction industries.

The automatic process that became popular was the submerged arc welding process. The National Tube Company developed this under powder, or smothered arc, welding process for a pipe mill at McKeesport, Pennsylvania. the company designed the process to make the longitudinal seams in the pipe. Robinoff patented the process in and later sold it to Linde Air Products Company. Linde renamed it to Unionmelt welding. Shipyards and ordnance factories used submerged arc welding during the defense buildup in . It is one of the most productive welding processes and remains popular today.

Gas tungsten arc welding (GTAW) had its beginnings in welding history from an idea by C.L. Coffin to weld in a nonoxidizing gas atmosphere, which he patented in . H.M. Hobart and P.K. Devers further refined the concept in the late s using helium and argon for shielding, respectively. This process was ideal for welding magnesium and also for welding stainless and aluminum. It was perfected in , patented by Meredith, and named Heliarc welding. It was later licensed to Linde Air Products, where the water-cooled torch was developed. The gas tungsten arc welding process has become one of the most important.

A turning point in welding history came when the Battelle Memorial Institute &#; under the sponsorship of the Air Reduction Company &#; successfully developed the gas metal arc welding (GMAW) process in . This development utilized the gas shielded arc similar to the gas tungsten arc but replaced the tungsten electrode with a continuously fed electrode wire. One of the basic changes that made the process more usable was the small-diameter electrode wires and the constant-voltage power source. H.E. Kennedy patented this principle earlier. The initial introduction of GMAW was for welding nonferrous metals. The high deposition rate led users to try the process on steel. The cost of inert gas was relatively high, and the cost savings were not immediately available.

In , Lyubavskii and Novoshilov announced the use of welding with consumable electrodes in an atmosphere of carbon dioxide gas. The CO2 welding process immediately gained favor since it utilized equipment developed for inert gas metal arc welding but could now be used for economically welding steels. The CO2 arc is a hot arc and the larger electrode wires required fairly high currents. The process became widely used with the introduction of smaller-diameter electrode wires and refined power supplies. This short-circuit arc variation was known as Micro-wire, short-arc and dip transfer welding, all of which appeared late in and early in . This variation allowed all-position welding on thin materials and soon became the most popular of the gas metal arc welding process variations.

Another variation was the use of inert gas with small amounts of oxygen that provided the spray-type arc transfer. It became popular in the early s. A recent variation is the use of pulsed current. The current switches from a high to a low value at a rate of once or twice the line frequency.

Soon after the introduction of CO2 welding, a variation utilizing a special electrode wire was developed. This wire, described as an inside-outside electrode, was tubular in cross section with the fluxing agents on the inside. The process was called Dualshield, which indicated that external shielding gas was utilized as well as the gas produced by the flux in the core of the wire for arc shielding. This process, invented by Bernard, was announced in , but was patented in , when the National Cylinder Gas Company reintroduced it.

In , an inside-outside electrode was produced that did not require external gas shielding. The absence of shielding gas gave the process popularity for noncritical work. This process was named Innershield®.

The Soviets announced the electroslag welding process at the Brussels World Fair in Belgium in . It had been used in the Soviet Union since but was based on work done in the United States by R.K. Hopkins, who was granted patents in . The Hopkins process was never used to a very great degree for joining. The Paton Institute Laboratory in Kiev, Ukraine, and the Welding Research Laboratory in Bratislava, Czechoslovakia, perfected the process and developed the equipment. The Electromotive Division of General Motors Corporation in Chicago used the process in production for the first time in the U.S. They called it the Electro-molding process and used it for the fabrication of welded diesel engine blocks. Manufacturers use the process and its variation, using a consumable guide tube, for welding thicker materials.

The Arcos Corporation introduced another vertical welding method, called Electrogas, in . It utilized equipment developed for electroslag welding but employed a flux-cored electrode wire and an externally supplied gas shield. It is an open arc process since a slag bath is not involved. A newer development uses self-shielding electrode wires and a variation uses solid wire but with gas shielding. These methods allow the welding of thinner materials than allowed with the electroslag process.

Gage invented plasma arc welding in . This process uses a constricted arc or an arc through an orifice, which creates an arc plasma that has a higher temperature than the tungsten arc. It is also used for metal spraying, gouging and cutting.

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Developed in France, the electron beam welding process uses a focused beam of electrons as a heat source in a vacuum chamber. J.A. Stohr of the French Atomic Energy Commission made the first public disclosure of the process on Nov. 23, . In the United States, the automotive and aircraft engine industries are the major users of electron beam welding.

Most recent

Developed in the Soviet Union, friction welding uses rotational speed and upset pressure to provide friction heat. It is a specialized process and has applications only where a sufficient volume of similar parts is to be welded because of the initial expense for equipment and tooling. This process is called inertia welding.

Laser welding is one of the newest processes. The Bell Laboratories originally developed the laser as a communications device. Because of the tremendous concentration of energy in a small space, it proved to be a powerful heat source. Operations use lasers or cutting metals and nonmetals. Continuous pulse equipment is available. The laser is finding welding applications in automotive metalworking operations.

Welding history information courtesy of Hobart Institute of Welding Technology. This article was excerpted from Modern Welding Technology, 4th edition, , by Howard B. Cary. Published by Prentice-Hall.

A Quick History of Welding | The Crucible

History of Welding: A Brief History

The invention and technical production of welding is one of the most critical steps in metal fabrication and development as a modern society. The origins of welding date back thousands of years, with significant developments made across many continents. Welding is the original technique for humans to fuse metals together, leading to the production of utensils, jewelry, weapons, transportation, and more.

Welding in the bronze and iron ages

The history of fusing metals through welding goes back as far as B.C. when humans first started working with bronze. The oldest known examples of welding are small golden boxes that date back to the Bronze age over 2,000 years ago. Archaeologists have found jewelry, dining utensils, and weapons from this time period. In B.C., Egyptians used charcoal to pressure-weld swords, and in B.C., iron smelting became more common.

Throughout the Middle East, tools and weapons dating back to the Iron Age have been found, made in approximately B.C. Welders have fused metals like copper, bronze, silver, gold, and iron over thousands of years. Over time, metalworking then progressed to welding steel.

During the Sui Dynasty, Chinese metalworkers discovered how to turn iron into steel in 589 A.D. At about the same time, Japanese metalworkers developed Samurai swords through welding and forging steel.

Welding in the middle ages

During the Middle Ages, blacksmithing was developed and iron became an available material for creating welded metal objects. Specifically, the middle ages brought advances in forge welding, which is still practiced by modern blacksmiths to forge swords and knives.

In , Italian metallurgist Vannoccio Biringuccio published De la pirotechnia, the first printed book on metallurgy, which includes descriptions of smelting and forging iron. Blacksmithing and forge welding continued to grow during the Renaissance.

Blacksmiths were central to the middle ages, often setting up their blacksmith shop, also known as a smithy, in the center of their village. Blacksmiths forge-welded weapons, and also made nails, furniture, locks, horseshoes, and armor. With this practical skill, blacksmiths became essential to any village, providing tools for protection, transportation, home goods, and more.

Welding in the 19th-20th centuries

During the Industrial Revolution, more modern welding techniques were developed. The discovery of the production of an arc between two carbon electrodes using a battery is credited to chemist Sir Humphry Davy in . In , Russian scientist Vasily Petrov created the stable electric arc, which enabled metalworkers to melt metals. Edmund Davy, who is Humphry Davy&#;s cousin, has been credited with discovering acetylene in . These discoveries led to the invention of the electric generator, gas welding and cutting, and more stable arc welding in the mid-19th century.

World War I caused a major increase in the use of welding, with developments in the production of weapons and transportation across the world. Arc welding was popular in building ships and airplanes by England and Germany. Automatic welding was introduced in , which feeds an electrode wire continuously through the welding machine. New welding gases were also used in the &#;s, with the intention of protecting welds from effects of oxygen and nitrogen in the atmospheres, preventing rusty and brittle welds.

During the middle of the century, many new welding methods were invented, from stud welding to underwater welding. Gas tungsten arc welding, after decades of development, was safer and more common beginning in , allowing welders to fuse different types of nonferrous metals.

Modern day welding

Over thousands of years of technical and practical developments, welding has advanced significantly to become more accurate, fast, and effective. There are over 90 welding processes in existence, and these methods are constantly being developed with new research in the nuclear, space, transportation, and shipbuilding industries.

Modern welding techniques have evolved to offer better performance, rooted in safety and sustainably built products. Contemporary inspection techniques have improved defects or imperfections, setting a standard for safety and craftsmanship.

If you are interested in working in welding as a career, there are a number of certifications and licenses offered that employers may require. American Welding Society (AWS) sets the modern-day standard for the American welding industry, AWS offers a certification, which tests welders to perform certain work based on their practical experience, qualifications, and the ability to weld specific tests.

Welding history FAQs

When was welding invented?

The first examples of welding found by archaeologists date back to B.C. The ancient process of welding typically involved simply hammering two pieces of metal together under heat until they joined. Technically speaking, conventional welding as we know it today was invented in when English chemist Edmund Davy discovered acetylene gas.

Who invented welding?

During the Iron Age, Egyptians first learned how to weld pieces of iron together. Archaeological evidence of early Egyptian welding dates back to B.C. In , Russian inventor Nikolay Benardos introduced carbon arc welding, which was the first practical arc welding method of its time.

Where was welding invented?

Different types of welding can be traced back to many locations over thousands of years. Archaeologists have found the oldest examples of welding in Egypt and the eastern Mediterranean. Significance advancements in modern welding can be traced to Russia and England.

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