,
Sheffield, England (2010)
Patent is credited with experimenting with a similar process before Bessemer's patent. In the early to mid-1850s, the American inventor
William Kelly experimented with a method similar to the Bessemer process. Wagner writes that Kelly may have been inspired by techniques introduced by Chinese ironworkers hired by Kelly in 1854.
Sir Henry Bessemer described the origin of his invention in his
autobiography written in 1890. During the outbreak of the
Crimean War, many English industrialists and inventors became interested in military technology. According to Bessemer, his invention was inspired by a conversation with
Napoleon III in 1854 pertaining to the steel required for better artillery. Bessemer claimed that it "was the spark which kindled one of the greatest revolutions that the present century had to record, for during my solitary ride in a cab that night from Vincennes to Paris, I made up my mind to try what I could to improve the quality of iron in the manufacture of guns." At the time, steel was used to make only small items like cutlery and tools, but was too expensive for cannons. Starting in January 1855, he began working on a way to produce steel in the massive quantities required for
artillery and by October he filed his first patent related to the Bessemer process. He patented the method a year later in 1856. Bessemer licensed the patent for his process to four
ironmasters, for a total of £27,000, but the licensees failed to produce the quality of steel he had promised—it was "rotten hot and rotten cold", according to his friend,
William Clay—and he later bought them back for £32,500. His plan had been to offer the licenses to one company in each of several geographic areas, at a royalty price per ton that included a lower rate on a proportion of their output in order to encourage production, but not so large a proportion that they might decide to reduce their selling prices. By this method he hoped to cause the new process to gain in standing and market share. Certain grades of steel are sensitive to the 78%
nitrogen which was part of the air blast passing through the steel. The solution was first discovered by English metallurgist
Robert Forester Mushet, who had carried out thousands of experiments in the
Forest of Dean. His method was to first burn off, as far as possible,
all the impurities and carbon, then reintroduce carbon and
manganese by adding an exact amount of
spiegeleisen, an alloy of iron and manganese with trace amounts of carbon and
silicon. This had the effect of improving the quality of the finished product, increasing its
malleability—its ability to withstand rolling and forging at high temperatures and making it more suitable for a vast array of uses. Mushet's patent ultimately lapsed due to Mushet's inability to pay the patent fees and was acquired by Bessemer. Bessemer earned over 5 million dollars in royalties from the patents. The first company to license the process was the Manchester firm of
W & J Galloway, and they did so before Bessemer announced it at Cheltenham in 1856. They are not included in his list of the four to whom he refunded the license fees. However, they subsequently rescinded their license in 1858 in return for the opportunity to invest in a partnership with Bessemer and others. This partnership began to manufacture steel in
Sheffield from 1858, initially using imported charcoal pig iron from
Sweden. This was the first commercial production. A 20% share in the Bessemer patent was also purchased for use in Sweden and Norway by Swedish trader and Consul
Göran Fredrik Göransson during a visit to London in 1857. During the first half of 1858, Göransson, together with a small group of engineers, experimented with the Bessemer process at Edsken near
Hofors, Sweden before he finally succeeded. Later in 1858 he again met with Henry Bessemer in London, managed to convince him of his success with the process, and negotiated the right to sell his steel in England. Production continued in Edsken, but it was far too small for the industrial-scale production needed. In 1862 Göransson built a new factory for his Högbo Iron and Steel Works company on the shore of Lake Storsjön, where the town of
Sandviken was founded. The company was renamed Sandviken's Ironworks, continued to grow and eventually became
Sandvik in the 1970s.
Industrial revolution Alexander Lyman Holley contributed significantly to the success of Bessemer steel in the United States. His
A Treatise on Ordnance and Armor is an important work on contemporary weapons manufacturing and steel-making practices. In 1862, he visited Bessemer's Sheffield works, and became interested in licensing the process for use in the US. Upon returning to the US, Holley met with two iron producers from
Troy, New York,
John F. Winslow and
John Augustus Griswold, who asked him to return to the United Kingdom and negotiate with the
Bank of England on their behalf. Holley secured a license for Griswold and Winslow to use Bessemer's patented processes and returned to the United States in late 1863. The trio began setting up a mill in
Troy, New York in 1865. The factory contained a number of Holley's innovations that greatly improved productivity over Bessemer's factory in Sheffield, and the owners gave a successful public exhibition in 1867. The Troy factory attracted the attention of the
Pennsylvania Railroad, which wanted to use the new process to manufacture steel rail. It funded Holley's second mill as part of its Pennsylvania Steel subsidiary. Between 1866 and 1877, the partners were able to license a total of 11 Bessemer steel mills. One of the investors they attracted was
Andrew Carnegie, who saw great promise in the new steel technology after a visit to Bessemer in 1872, and saw it as a useful adjunct to his existing businesses, the
Keystone Bridge Company and the Union Iron Works. Holley built the new steel mill for Carnegie, and continued to improve and refine the process. The new mill, known as the
Edgar Thomson Steel Works, opened in 1875, and started the growth of the United States as a major world steel producer. Using the Bessemer process,
Carnegie Steel was able to reduce the costs of steel
railroad rails from $100 per ton to $50 per ton between 1873 and 1875. The price of steel continued to fall until Carnegie was selling rails for $18 per ton by the 1890s. Prior to the opening of Carnegie's Thomson Works, steel output in the United States totaled around 157,000 tons per year. By 1910, American companies were producing 26 million tons of steel annually.
William Walker Scranton, manager and owner of the
Lackawanna Iron & Coal Company in
Scranton, Pennsylvania, had also investigated the process in Europe. He built a mill in 1876 using the Bessemer process for steel rails and quadrupled his production. Bessemer steel was used in the United States primarily for railroad rails. During the construction of the
Brooklyn Bridge, a major dispute arose over whether
crucible steel should be used instead of the cheaper Bessemer steel. In 1877,
Abram Hewitt wrote a letter urging against the use of Bessemer steel. Bids had been submitted for both
crucible steel and Bessemer steel;
John A. Roebling's Sons submitted the lowest bid for Bessemer steel, but at Hewitt's direction, the contract was awarded to
J. Lloyd Haigh Co. ==Technical details==