History of Welding
The history of joining metals goes back several millennia,
with the earliest
examples of welding from the Bronze Age
and the Iron
Age in Europe
and the Middle
East. Welding was
used in the construction of the Iron pillar
in Delhi,
India,
erected about 310
and weighing 5.4 metric tons.
The Middle
Ages brought
advancements in forge
welding,
in which blacksmiths pounded heated metal repeatedly until bonding
occurred. In
1540,
Vannoccio
Biringuccio published De la
pirotechnia, which includes
descriptions of the forging operation. Renaissance
craftsmen were skilled in the
process, and the industry continued to grow during the following
centuries.
Welding, however, was transformed during the 19th century—in 1800,
Sir
Humphrey
Davy discovered the electric
arc, and advancements in arc welding
continued with the inventions of metal electrodes by a Russian, Nikolai
Slavyanov, and an American, C.L. Coffin
in the late 1800s,
even as carbon
arc
welding, which used a carbon
electrode, gained popularity. Around 1900,
A.
P. Strohmenger released a coated metal
electrode in Britain,
which gave a more stable arc, and in 1919,
alternating
current welding was invented by C.J.
Holslag, but did not become popular for
another decade.
Resistance
welding was also developed during the final decades of the
19th
century, with the first patents going to Elihu
Thompson in 1885,
and he produced further advancements over the next 15
years. Thermite
welding was invented in 1893,
and around that time, another process, oxyfuel
welding, became well established as
well. Acetylene
was discovered in 1836
by Edmund
Davy, but its use was not practical in
welding until about 1900, when a suitable blowtorch
was developed. At first, oxyfuel
welding was one of the more popular welding methods due to its
portability and
relatively low cost. As the 20th
century progressed, however, it fell out
of favor for industrial applications. It was largely replaced with arc
welding,
as metal coverings (known as flux)
for the electrode that stabilize the arc
and shield the base material from impurities continued to be developed.
Here are some more welding articles...
Energy Beam Welding
Energybeam welding methods, namely laser beam welding and electron beamwelding, are relatively new processes that have become quite popular Read more...
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Distortion and Cracking
Weldingmethods that involve the melting of metal at the site of the jointnecessarily are prone to shrinkageas the heated metal cools. Shrinkage, in turn, can Read more...
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Gas Welding
The most common gas welding process is oxyfuel welding, also known asoxyacetylene welding. It is one of the oldest and most versatilewelding processes, but in recent years it has become less Read more...
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Aluminum Welding
Theweldability of aluminum alloys varies significantly, depending on thechemical composition of the alloy used. Aluminum alloys are susceptibleto Read more...
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