HENRY BESSEMER AND STEEL
(1813-1898)
By: Austin Van Bruggen
and Matthew Stein
What is Steel?
An alloy of iron and carbon. One of the most commonly used
materials today.
It revolutionized: Construction Tool and machine making Architecture
Steel is also…
Extremely strong. Very durable. Long lasting.
Too good to be true?
What’s the catch?
Pre-Bessemer Steel
Took too long to make. Made in small quantities. But mostly, it was very
EXPENSIVE to make!!!!! Cost about 40 pounds per long
ton (2240 lbs). Many thought it wasn’t worth
the trouble of making.
Until…..
Henry Bessemer
Developed the Bessemer process for steelmaking.
Bessemer had many motives for inventing the Bessemer process, including:
Crimean War caused high demand for Steel and Iron.
Wanted to make stronger artillery. Existing cannons weren’t strong enough.
Bessemer Process
Used a large container called a converter.Made of steel.Has a clay or silica lining.Has a carrying capacity of
about 8 to 30 tons of molten iron.
Molten pig iron is poured into the Bessemer converter.
Air is blown through the bottom of the converter and up through the molten iron.
This process is known as Oxidization or the Pneumatic Process.
This process only took around 20 minutes. Apposed to 3 plus hours.
Greatly increased annual steel production. Reduced the cost substantially. Only about
7 pounds per long ton.
Crucible Steel
Crucible steel was the most commonly used steel before the Bessemer process was introduced in 1856.
Any of the methods of making steel in a Crucible.
Has been used for well over 1000 years.
The most common process was packing wrought iron into crucibles or an open hearth with charcoal.
It was heated to diffuse carbon into the iron to produce steel.
Was improved much later by Benjamin Huntsman.
Used coke fired furnace in which many clay crucibles are placed into.
Bessemer Steel vs. Crucible Steel
Bessemer Steel was better than Crucible Steel in almost every way.
Was made faster. Could more easily be adapted to fit individual
needs. Was much cheaper. More could be made per load. Was of better quality.
Variability of Steel
The Bessemer process of steel allows for steel to be easily alloyed with other metals.
Alloying is combining one metal with one or more other metals during the smelting process.
When in combination with other metals, steel can have many different functions.
Steel Alloys
Some steel alloys that are commonly used today are:
Chromium and SteelHardness, strength, elasticity.Difficulty of acquiring rust and other discolorations.
Nickel and SteelMost commonly used steel alloy.Non-magnetic.Possesses a shock resistant quality.
Aluminum and SteelSmooth with high tensile strength.
Carbon Content
Steel is an alloy of iron and carbon. Some of the qualities of steel rely on its carbon content. The higher the carbon content…
The strength and harness can increase with heat treating. This can make the steel less ductile.
The weldability of the steel decreases. The melting point of the steel decreases.
Uses of Steel Today
Steel is one of if not the most commonly used material used today. Because of its strength, durability, and adaptability, it is used in many different fields.
Construction Weaponry Transportation
Steel is used to make: Gardening tools Construction tools Hygiene and health
tools Office supplies Kitchenware Sculptures
Safety devises Cars Planes Sports gear Weaponry Machinery made of
metal/that contains metal parts
Steel Usage in BuildingsSteel’s strength and durability make it a prime
candidate for use in the construction industry. Iron doesn’t last long enough and isn’t strong
enough to support skyscrapers and other large buildings.
Builders wanted to eliminate the need for replacing buildings.
They want to build things that will be around longer than them.
Lasting Effects In 1850, the production of steel in Britain was
around 50,000 tons. By 1880, the production of steel was about
1,300,000 tons. Over 1,000,000 tons of this was Bessemer steel. Henry Bessemer became a millionaire because
of this and other inventions that he patented. The Bessemer process was the most favored
process for the development of steel until the middle of the 20th century.
Open Hearth Process The Bessemer converter was replaced by the
open hearth furnace. Made by Carl Wilhelm Siemens in the 1850’s. Started being used for making steel in 1865. It was slower, easier to control, allowed for the
melting down and refining of scrap steel. The Siemens-Martin process complimented the
Bessemer process rather than superseding it.
Basic Oxygen Steelmaking
The open hearth process was superseded by basic oxygen steelmaking.
Similar to the Bessemer process. Blows oxygen instead of air through the
molten pig iron. Reduced costs of production. Reduced time of smelting from 10-12
hours to under 40 mins. Increased labor productivity.
Importance of the Bessemer ProcessThe Bessemer process changed the world as we
know it. It revolutionized construction and without it the Industrial Revolution wouldn’t have been possible. The processes that replaced it are, like many other scientific processes and inventions, just improvements upon previous works. The Bessemer process still has lasting effects to this day, and the world would be a very different place without.
EL FINAL
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