Bessemer process

Bessemer process

The Bessemer process was the first inexpensive industrial process for the mass-production of steel from molten pig iron. The process is named after its inventor, Henry Bessemer, who took out a patent on the process in 1855. The process was independently discovered in 1851 by William Kelly. [ cite encyclopedia | title = Bessemer process | encyclopedia = Britannica | volume =2 | pages = 168 | publisher = Encyclopedia Britannica | date = 2005 | accessdate = 2005-08-06] [cite encyclopedia | title = Kelly, William | encyclopedia = Britannica | volume =6
pages = 791 | publisher = Encyclopedia Britannica | date = 2005 | accessdate = 2005-08-06
] The process had also been used outside of Europe for hundreds of years, but not on an industrial scale. [Harvard reference | Surname=Ponting | Given=Clive | Authorlink=Clive Ponting | Year=2000 | Title=World History, A New Perspective | Publisher=Pimlico | ISBN=0-7126-6572-2] The key principle is removal of impurities from the iron by oxidation with air being blown through the molten iron. The oxidation also raises the temperature of the iron mass and keeps it molten.

The details of the process

Bessemer Converter

The process is carried on in a large ovoid steel container lined with clay or dolomite called the Bessemer converter. The capacity of a converter was from 8 to 30 tons of molten iron with a usual charge being around 15 tons. At the top of the converter is an opening, usually tilted to the side relative to the body of the vessel, through which the iron is introduced and the finished product removed. The bottom is perforated with a number of channels called "tuyères" through which air is forced into the converter. The converter is pivoted on trunnions so that it can be rotated to receive the charge, turned upright during conversion, and then rotated again for pouring out the molten steel at the end.

Oxidation

The oxidation process removes impurities such as silicon, manganese, and carbon as oxides. These oxides either escape as gas or form a solid slag. The refractory lining of the converter also plays a role in the conversion—the clay lining is used in the "acid Bessemer", in which there is low phosphorus in the raw material. Dolomite is used when the phosphorus content is high in the "basic Bessemer" (limestone or magnesite linings are also sometimes used instead of dolomite)—this is also known as a Gilchrist-Thomas converter, named after its inventor, Sidney Gilchrist Thomas. In order to give the steel the desired properties, other substances could be added to the molten steel when conversion was complete, such as spiegeleisen (an iron-carbon-manganese alloy).

Managing the process

When the required steel had been formed, it was poured out into ladles and then transferred into moulds and the lighter slag is left behind. The conversion process called the "blow" was completed in around twenty minutes. During this period the progress of the oxidation of the impurities was judged by the appearance of the flame issuing from the mouth of the converter: the modern use of photoelectric methods of recording the characteristics of the flame has greatly aided the blower in controlling the final quality of the product. After the blow, the liquid metal was recarburized to the desired point and other alloying materials are added, depending on the desired product.

Predecessor processes

Before the Bessemer process Britain had no practical method of reducing the carbon content of pig iron. Steel was manufactured by the reverse process of adding carbon to carbon-free wrought iron, usually imported from Sweden. The manufacturing process, called cementation process, consisted of heating bars of wrought iron together with charcoal for periods of up to a week in a long stone box. This produced blister steel. Up to 3 tons of expensive coke was burnt for each ton of steel produced. Such steel when rolled into bars was sold at £50 to £60 a long ton. The most difficult and work-intensive part of the process was however the production of wrought iron done in finery forges in Sweden.

This process was refined in the 1700s with the introduction of Benjamin Huntsman's crucible steel-making technique, which added an additional three hours firing time and required additional large quantities of coke. In making crucible steel the blister steel bars were broken into pieces and melted in small crucibles each containing 20 kg or so. This produced higher quality crucible steel and increased the cost. The Bessemer process reduced to about half an hour the time needed to make steel of this quality while requiring only the coke needed to melt the pig iron initially. The earliest Bessemer converters produced steel for £7 a long ton, although it initially sold for around £40 a ton.

History

Historian Robert Hartwell points out that the 11th century Chinese of the Song Dynasty innovated a "partial decarbonization" method of repeated forging of cast iron under a cold blast.Hartwell, Robert. "Markets, Technology, and the Structure of Enterprise in the Development of the Eleventh-Century Chinese Iron and Steel Industry", "The Journal of Economic History" (Volume 26, Number 1, 1966): 29–58. Page 54.] The historians Joseph Needham and Wertime acknowledged that this was the predecessor to the Bessemer process of making steel. This process was first described by the prolific scholar and polymath government official Shen Kuo (1031–1095) in 1075 when he visited Cizhou. Hartwell states that perhaps the earliest center where this was practiced was the great iron-production district along the Henan-Hebei border during the 11th century.

Both Bessemer and Huntsman were based in the city of Sheffield, England. Sheffield has an international reputation for steel-making, which dates from 1740, when Benjamin Huntsman discovered the crucible technique for steel manufacture, at his workshop in the district of Handsworth. This process had an enormous impact on the quantity and quality of steel production and was only made obsolete, a century later, in 1856 by Henry Bessemer's invention of the Bessemer converter which allowed the true mass production of steel. Bessemer had moved his Bessemer Steel Company to Sheffield to be at the heart of the industry. The city's Kelham Island Museum still maintains one of the UK's last examples of a working Bessemer converter (from Workington, Cumbria) for public viewing.

The first Bessemer steel mill in the United States was established in 1855 in Wyandotte, Michigan, on the Detroit River, about 14 miles south of Detroit. Detroit became an early steel producing city in North America due to easy access to Great Lakes shipping and iron ore from northern Michigan, Wisconsin and Minnesota. These were major factors in development of Detroit as a renowned center of automobile manufacture.

Importance

The Bessemer process revolutionized steel manufacture by decreasing its cost, and greatly increasing the scale and speed, while also decreasing the labour requirements. Prior to its introduction, steel was far too expensive to make bridges or the framework for buildings and wrought iron had been used throughout the Industrial Revolution. After its introduction, steel and wrought iron became similarly priced, and most manufacturers turned to steel.

Obsolescence

In the U.S., commercial steel production using this method stopped in 1968. It was replaced by processes such as the basic oxygen (Linz-Donawitz) process, which offered better control of final chemistry. The Bessemer process was so fast (10–20 minutes for a heat) that it allowed little time for chemical analysis or adjustment of the alloying elements in the steel. Bessemer converters did not remove phosphorus efficiently from the molten steel; as low-phosphorus ores became more expensive, conversion costs increased. The process only permitted a limited amount of scrap steel to be charged, further increasing costs, especially when scrap was inexpensive. Certain grades of steel were sensitive to the nitrogen which was part of the air blast passing through the steel.

See also

* Open hearth (Siemens-Martin) process
* Basic oxygen (Linz-Donawitz) process

References

* [http://inventors.about.com/gi/dynamic/offsite.htm?site=http://www.newsteel.com/features/NS9911f2.htm A retrospective of 20th century steel making technology]

Notes

External links

* [http://www.theengineer.co.uk/assets/getAsset.aspx?liAssetID=21800 The Engineer, 15 August 1856.] Bessemer's explanation of his process.


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Look at other dictionaries:

  • Bessemer process — [bes′ə mər] n. [after Sir Henry Bessemer (1813 98), Eng engineer who developed it] a method of making steel by blasting air through molten pig iron in a large container (Bessemer converter) to burn away the carbon and other impurities …   English World dictionary

  • Bessemer process — Bessemer process. См. Бессемеровский процесс. (Источник: «Металлы и сплавы. Справочник.» Под редакцией Ю.П. Солнцева; НПО Профессионал , НПО Мир и семья ; Санкт Петербург, 2003 г.) …   Словарь металлургических терминов

  • Bessemer process — Metall. a process of producing steel, in which impurities are removed by forcing a blast of air through molten iron. [1855 60; after H. BESSEMER] * * * Technique for converting pig iron to steel invented by Henry Bessemer in England in 1856 and… …   Universalium

  • bessemer process — process of producing steel from impure iron by forcing compressed air through molten metal …   English contemporary dictionary

  • Bessemer process — noun a steel making process, now largely superseded, in which carbon, silicon, and other impurities are removed from molten pig iron by oxidation in a blast of air in a special tilting retort (a Bessemer converter). Origin C19: named after the… …   English new terms dictionary

  • Bessemer process — noun Etymology: Sir Henry Bessemer Date: 1856 a process of making steel from pig iron by burning out carbon and other impurities by means of a blast of air forced through the molten metal …   New Collegiate Dictionary

  • Bessemer process — /ˈbɛsəmə ˌproʊsɛs/ (say besuhmuh .prohses) noun a process of producing steel, in which impurities are removed by forcing a blast of air through molten iron. {See Bessemer converter} …  

  • BESSEMER PROCESS —    See BESSEMER, SIR HENRY …   The Nuttall Encyclopaedia

  • Bessemer process —  Steelmaking method named after Sir Henry Bessemer (1813–1898), British metallurgist …   Bryson’s dictionary for writers and editors

  • Bessemer process — Bes′semer proc ess n. mel a process of producing steel in which impurities are removed by forcing air through molten iron in a refractory lined metal container(Bes′semer convert er) …   From formal English to slang

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