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Holger F. Struer (22 March 1846 17 June 1931) was a Danish
Structure 36, Struers Journal of Materialography, 2000
p 6.
The development of metallography was a continuous struggle to find better and easier methods to prepare metal surfaces for microstructure observation. Struers based his new principle for electrolytic polishing on 
However, in 1863
engineers.ihs.com
Online history of Struers companyStruers today
{{DEFAULTSORT:Struer, Holger F. 19th-century Danish scientists 20th-century Danish scientists 19th-century Danish businesspeople 20th-century Danish businesspeople Danish chemists Danish company founders 1846 births 1931 deaths
chemist
A chemist (from Greek ''chēm(ía)'' alchemy; replacing ''chymist'' from Medieval Latin ''alchemist'') is a graduated scientist trained in the study of chemistry, or an officially enrolled student in the field. Chemists study the composition of ...
and founder of "H. Struers Chemiske Laboratorium" (In Danish: "Struers Kemiske Laboratorium") in 1875 at Skindergade
Skindergade is a street in central Copenhagen, Denmark. Running roughly parallel to Strøget, to which it is connected through Jorcks Passage, it extends for approximately 400 metres from Gammeltorv to Købmagergade.
History
Its name dates ba ...
38, the centre of Copenhagen
Copenhagen ( ) is the capital and most populous city of Denmark, with a population of 1.4 million in the Urban area of Copenhagen, urban area. The city is situated on the islands of Zealand and Amager, separated from Malmö, Sweden, by the ...
. Struers introduced in 1943 Micropol, a new principle for electrolytic polishing which made the preparation process within metallography
Metallography is the study of the physical structure and components of metals, by using microscopy.
Ceramic and polymeric materials may also be prepared using metallographic techniques, hence the terms ceramography, plastography and, collecti ...
more controlled in order to achieve better preparation results."The History of Struers"Structure 36, Struers Journal of Materialography, 2000
p 6.
Career
The development of metallography was a continuous struggle to find better and easier methods to prepare metal surfaces for microstructure observation. Struers based his new principle for electrolytic polishing on Count Alois von Beckh Widmanstätten
Count (feminine: countess) is a historical title of nobility in certain European countries, varying in relative status, generally of middling rank in the hierarchy of nobility. Pine, L. G. ''Titles: How the King Became His Majesty''. New York: ...
and his early experiments from the beginning of the 19th century that revealed the structure of iron from a meteor which had come down earlier in the century. He noticed that the structure could better be seen on plane, fine polished surfaces. By pouring nitric acid over the surface and letting it react for some time, he actually made a deep etch which developed the macrostructure. Pieces etched this way were used for printing the structure directly on paper. These "nature prints" turned "metallography" into lithography. All these experiments did not lead to any evaluation of the microstructure, but were limited to the macrostructure.
However, in 1863 Henry Clifton Sorby
Henry Clifton Sorby (10 May 1826 – 9 March 1908) was an English amateur microscopist and geologist. His major contribution was the development of techniques for thin sectioning of rocks and minerals with polarized light under a microscope whi ...
described in detail how he ground and polished samples in order to examine them under the microscope. He was able to magnify the structure up to 650x. From these observations he drew conclusions regarding the structure of pearlite and ferrite, and he was also able to watch the recrystallization of steel during cold working. For recording the microstructures he used three different methods available at the time: drawings, "nature printing" and microphotography. Considering that his research in the area of metallography only lasted two years, he discovered and established a wealth of information, and Sorby is considered to be the founder of metallography.
Holger F. Struer saw the need for a laboratory making chemical analysis in the strongly developing "modern society", and in 1895 Struer began importing chemicals and instruments for the Danish market. In 1919 Struer obtained the Danish representation of the Austrian company, Reichert, a specialist in metallographic microscopes. The combination of chemical knowledge and the sale of metallographic microscopes changed the focus of Struer's company to metallography and metallographic analysis. In 1943 H. Struers Chemiske Laboratorium launched Micropol, and a new principle for electrolytic polishing was established.
The introduction of Micropol was a technological progress since in this way the materialographic preparation process became more controlled in order to achieve an optimal preparation result in the shortest possible time. Today metallography is a part of materials science in its own right and extends to all fields of application, including ceramics, composites, electronic components and other solid materials.
Legacy
H. Struers Chemiske Laboratorium is still active within metallography but is today just called "Struers Aps".Bibliography
* "The Construction of Laboratory Apparatus for Schools", Unesco, added author Struers Chemiske Laboratorium, Paris, 1954 * . * "Metallographic and Materialographic Specimen Preparation, Light Microscopy, Image Analysis and Hardness Testing", Kay Geels in collaboration with Struers, ASTM International 200engineers.ihs.com
References
Further reading
Online history of Struers company
{{DEFAULTSORT:Struer, Holger F. 19th-century Danish scientists 20th-century Danish scientists 19th-century Danish businesspeople 20th-century Danish businesspeople Danish chemists Danish company founders 1846 births 1931 deaths