completed cathode

completed cathode

двусторонний катод

completed cathode

двусторонний катод

completed cathode

Техника: двусторонний катод

completed cathode

двусторонний катод ( в электрохимических нагревателях)

cathode

1) катод

2) анод ( в гальванических и аккумуляторных элементах)

3) эмиттер (диода, тиристора)

•

-
activated cathode
-
angle cathode
-
arc cathode
-
arc-resistant cathode
-
barium cathode
-
basket cathode
-
bifilar cathode
-
brush cathode
-
central cathode
-
coated cathode
-
cold cathode
-
completed cathode
-
composite cathode
-
dipped cathode
-
dip cathode
-
directly heated cathode
-
dispenser cathode
-
drum cathode
-
equipotential cathode
-
evaporated cathode
-
fast-warmup cathode
-
field radiating cathode
-
field-emission cathode
-
filamentary cathode
-
film-coated cathode
-
film cathode
- flooding gun cathode -
flowing cathode
-
flow cathode
-
fluidized-bed cathode
-
gauze cathode
-
gun cathode
-
hollow cathode
-
hot cathode
-
impregnated cathode
-
incandescent cathode
-
indirectly heated cathode
-
ionic-heated cathode
-
lining cathode
-
liquid cathode
-
matrix cathode
-
matrix-type cathode
-
mercury-pool cathode
-
mesh cathode
-
molten cathode
-
multiple-tiered cathode
-
nonplating cathode
-
overflow-type cathode
-
overflow cathode
-
oxide-coated cathode
-
oxide cathode
-
pasted cathode
-
photoelectric cathode
-
photoemissive cathode
-
photoemitter cathode
-
point cathode
-
pool cathode
-
preheated cathode
-
ribbed cathode
-
sandwich cathode
-
separately heated cathode
-
slot cathode
-
target cathode
-
unipotential cathode
-
virtual cathode
-
wire cathode

двусторонний катод

completed cathode

двусторонний катод

completed cathode

двусторонний катод

completed cathode

двусторонний катод

Engineering: completed cathode

Hall, Charles Martin

SUBJECT AREA: Metallurgy

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b. 6 December 1863 Thompson, Ohio, USA

d. 27 December 1914 USA

[br]

American metallurgist, inventor of the first feasible electrolytic process for the production of aluminium.

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The son of a Congregationalist minister, Hall was educated at Oberlin College. There he was instructed in chemistry by Professor F.F.Jewett, a former student of the German chemist Friedrich Wöhler, who encouraged Hall to believe that there was a need for a cheap process for the manufacture of aluminium. After graduating in 1885, Hall set to work in his private laboratory exploring the method of fused salt electrolysis. On Wednesday 10 February 1886 he found that alumina dissolved in fused cryolite "like sugar in water", and that the bath so produced was a good conductor of electricity. He contained the solution in a pure graphite crucible which also acted as an efficient cathode, and by 16 February 1886 had produced the first globules of metallic aluminium. With two backers, Hall was able to complete his experiments and establish a small pilot plant in Boston, but they withdrew after the US Patent Examiners reported that Hall's invention had been anticipated by a French patent, filed by Paul Toussaint Héroult in April 1886. Although Hall had not filed until July 1886, he was permitted to testify that his invention had been completed by 16 February 1886 and on 2 April 1889 he was granted a seventeen-year monopoly in the United States. Hall now had the support of Captain A.E. Hunt of the Pittsburgh Testing Institute who provided the capital for establishing the Pittsburgh Reduction Company, which by 1889 was selling aluminium at $1 per pound compared to the $15 for sodium-reduced aluminium. Further capital was provided by the banker Andrew Mellon (1855–1937). Hall then turned his attention to Britain and began negotiations with Johnson Matthey, who provided land on a site at Patricroft near Manchester. Here the Aluminium Syndicate, owned by the Pittsburgh Reduction Company, began to produce aluminium in July 1890. By this time the validity of Hall's patent was being strongly contested by Héroult and also by the Cowles brothers, who attempted to operate the Hall process in the United States. Hall successfully sued them for infringement, and was confirmed in his patent rights by the celebrated ruling in 1893 of William Howard Taft, subsequently President of the USA. In 1895 Hall's company changed its name to the Pittsburgh Aluminium Company and moved to Niagara Falls, where cheap electrical power was available. In 1903 a legal compromise ended the litigation between the Hall and Héroult organizations. The American rights in the invention were awarded to Hall, and the European to Héroult. The Pittsburgh Aluminium Company became the Aluminium Company of America on 1 January 1907. On his death he left his estate, worth about $45 million, for the advancement of education.

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Principal Honours and Distinctions

Chemical Society, London, Perkin Medal 1911.

Further Reading

H.N.Holmes, 1930, "The story of aluminium", Journal of Chemical Education. E.F.Smith, 1914, Chemistry in America.

ASD

Héroult, Paul Louis Toussaint

SUBJECT AREA: Metallurgy

[br]

b. 1863 Thury-Harcourt, Caen, France

d. 9 May 1914 Antibes, France

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French metallurigst, inventor of the process of aluminium reduction by electrolysis.

[br]

Paul Héroult, the son of a tanner, at the age of 16, while still at school in Caen, read Deville's book on aluminium and became obsessed with the idea of developing a cheap way of producing this metal. After his family moved to Gentillysur-Bièvre he studied at the Ecole Sainte-Barbe in Paris and then returned to Caen to work in the laboratory of his father's tannery. His first patent, filed in February and granted on 23 April 1886, described an invention almost identical to that of C.M. Hall: "the electrolysis of alumina dissolved in molten cryolite into which the current is introduced through suitable electrodes. The cryolite is not consumed." Early in 1887 Héroult attempted to obtain the support of Alfred Rangod Pechiney, the proprietor of the works at Salindres where Deville's process for making sodium-reduced aluminium was still being operated. Pechiney persuaded Héroult to modify his electrolytic process by using a cathode of molten copper, thus making it possible produce aluminium bronze rather than pure aluminium. Héroult then approached the Swiss firm J.G.Nehe Söhne, ironmasters, whose works at the Falls of Schaffhausen obtained power from the Rhine. They were looking for a new metallurgical process requiring large quantities of cheap hydroelectric power and Héroult's process seemed suitable. In 1887 they established the Société Metallurgique Suisse to test Héroult's process. Héroult became Technical Director and went to the USA to defend his patents against those of Hall. During his absence the Schaffhausen trials were successfully completed, and on 18 November 1888 the Société Metallurgique combined with the German AEG group, Oerlikon and Escher Wyss, to establish the Aluminium Industrie Aktiengesellschaft Neuhausen. In the early electrolytic baths it was occasionally found that arcs between the bath surface and electrode could develop if the electrodes were inadvertently raised. From this observation, Héroult and M.Killiani developed the electric arc furnace. In this, arcs were intentionally formed between the surface of the charge and several electrodes, each connected to a different pole of the AC supply. This furnace, the prototype of the modern electric steel furnace, was first used for the direct reduction of iron ore at La Praz in 1903. This work was undertaken for the Canadian Government, for whom Héroult subsequently designed a 5,000-amp single-phase furnace which was installed and tested at Sault-Sainte-Marie in Ontario and successfully used for smelting magnetite ore.

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Further Reading

Aluminium Industrie Aktiengesellschaft Neuhausen, 1938, The History of the Aluminium-Industrie-Aktien-Gesellschaft Neuhausen 1888–1938, 2 vols, Neuhausen.

C.J.Gignoux, Histoire d'une entreprise française. "The Hall-Héroult affair", 1961, Metal Bulletin (14 April):1–4.

ASD