History of Welding Part II
World War I
caused a major surge in the use of welding processes, with the various
military
powers attempting to determine which of the several new welding
processes would
be best. The British primarily used arc welding, even constructing a
ship, the Fulagar,
with an entirely welded hull. The Americans were more hesitant, but
began to
recognize the benefits of arc welding when the process allowed them to
repair
their ships quickly after a German
attack in the New
York Harbor at the beginning of the war. Arc welding was first applied
to
aircraft during the war as well, as some German airplane fuselages were
constructed using the process.
During the 1920s, major
advances were made in welding technology, including the introduction of
automatic welding in 1920, in
which electrode wire was fed continuously. Shielding gas
became a subject receiving much attention, as scientists attempted to
protect
welds from the effects of oxygen and nitrogen in the atmosphere.
Porosity and
brittleness were the primary problems, and the solutions that developed
included the use of hydrogen,
argon, and helium as welding atmospheres.
During the following decade, further advances allowed for the welding
of
reactive metals like aluminum
and magnesium. This, in
conjunction with developments in automatic welding, alternating
current, and
fluxes fed a major expansion of arc welding during the 1930s and then
during World War II.
During
the middle of the
century, many new welding methods were invented. 1930 saw the release
of stud welding, which
soon became popular in shipbuilding and construction. Submerged
arc welding was invented the same year, and continues to be popular
today. Gas
tungsten arc welding, after decades of development, was finally
perfected
in 1941, and gas
metal arc welding followed in 1948,
allowing for fast welding of non-ferrous materials but requiring
expensive shielding gases. Shielded metal arc welding was developed
during the 1950s, using a
consumable electrode and a carbon dioxide atmosphere as a shielding
gas, and it
quickly became the most popular metal arc welding process. In 1957, the
flux-cored
arc welding process debuted, in which the self-shielded wire electrode
could be used with automatic equipment, resulting in greatly increased
welding
speeds, and that same year, plasma arc welding was invented.
Electroslag welding was released in 1958, and it was followed by its
cousin, electrogas welding, in 1961.
Other recent
developments in welding include the 1958 breakthrough of electron
beam welding, making deep and narrow welding possible through the
concentrated heat source. Following the invention of the laser in 1960,
laser beam
welding debuted several decades later, and has proved to be especially
useful in high-speed, automated welding. Both of these processes,
however,
continue to be quite expensive due the high cost of the necessary
equipment,
and this has limited their applications.
Here are some more welding articles...
