To install click the Add extension button. That's it.

The source code for the WIKI 2 extension is being checked by specialists of the Mozilla Foundation, Google, and Apple. You could also do it yourself at any point in time.

4,5
Kelly Slayton
Congratulations on this excellent venture… what a great idea!
Alexander Grigorievskiy
I use WIKI 2 every day and almost forgot how the original Wikipedia looks like.
What we do. Every page goes through several hundred of perfecting techniques; in live mode. Quite the same Wikipedia. Just better.
.
Leo
Newton
Brights
Milds

From Wikipedia, the free encyclopedia

Didymium glasses

Didymium (Greek: δίδυμο, twin) is a mixture of the elements praseodymium and neodymium. It is used in safety glasses for glassblowing and blacksmithing, especially with a gas (propane)-powered forge, where it provides a filter that selectively blocks the yellowish light at 589 nm emitted by the hot sodium in the glass without having a detrimental effect on general vision, unlike dark welder's glasses. The usefulness of didymium glass for eye protection of this sort was discovered by Sir William Crookes.

Didymium photographic filters are often used to enhance autumn scenery by making leaves appear more vibrant. It does this by removing part of the orange region of the color spectrum, acting as an optical band-stop filter. Unfiltered, this group of colors tends to make certain elements of a picture appear "muddy". These photographic filters are also used by nightscape photographers, as they absorb part of the light pollution caused by sodium street lights. Didymium was also used in the sodium vapor process for matte work due to its ability to absorb the yellow color produced by its eponymous sodium lighting.

Didymium is also used in calibration materials for spectroscopy.[1]

YouTube Encyclopedic

  • 1/3
    Views:
    667
    953
    6 063
  • Sodium lamp viewed through Didymium glasses
  • Arron Siverson Glass Blowing 1st Person Demo w/ Google Glass @ DFO 2014
  • Salt Blowing Glass For The Win @ DFO 2014 1st Person with Google Glass

Transcription

Discovery

Didymium ("Di = 95") in the first edition of Dmitri Mendeleev's periodic table

Didymium was discovered by Carl Mosander in 1841.[2] It was named after the Greek word δίδυμο ("twin") because it is very similar to lanthanum and cerium, with which it was found.[3] Mosander wrongly believed didymium to be an element[4] and that cerite, isolated by Jöns Jakob Berzelius in 1803, was a mixture of cerium, lanthanum, and didymium.[citation needed] Cerium, lanthanum, and didymium made up least 95% of the rare earths in the original cerite from Bastnäs, Sweden.

In trivalent form, didymium tinged the salts of ceria pink. During the time that didymium was believed to be an element, the symbol Di was used for it. In Dmitri Mendeleev's first attempt at a periodic table, the atomic weights assigned to the lanthanides (including didymium) reflect the original belief that they were divalent. Their actual oxidation number of 3 implies that Mendeleev underestimated atomic weights for them by one third.

In 1874, Per Teodor Cleve deduced that didymium was made up of at least two elements.[3] In 1879, Lecoq de Boisbaudran succeeded in isolating a samarium compound for the first time; the compound was isolated from didymium contained in North Carolinian samarskite. In 1885, Carl Auer von Welsbach succeeded in separating salts of the last two component elements,[4][5] praseodymium and neodymium.[2] To accomplish this, he used a fractional crystallization of the double ammonium nitrates from a solution of nitric acid.[4]

Welsbach had decided to name his two new elements "praseodidymium" ("green didymium") and "neodidymium" ("new didymium"), but one syllable was soon dropped from each name. Despite being abbreviated in the new elements' names, the untruncated name "didymium" persisted, partly due to its use as an ingredient in glassblowers' goggles, and colored glass.[4] The name "didymium" also was retained in mineralogical texts.[3]

Glassmaking

During World War I, didymium mirrors were reportedly used to transmit Morse Code across battlefields.[3] Didymium does not absorb enough light to make the variation in lamp's light output obvious, but someone with binoculars attached to a prism in the correct fashion could see the absorption bands flash on and off.

In the late 1920s, Leo Moser (Moser glass-works Director General, 1916 to 1932) recombined praseodymium and neodymium in a 1:1 ratio to create his "Heliolite" glass ("Heliolit" in Czech), which has color-changing properties between amber, reddish, and green depending on the light source. This was one of a number of decorative glasses using rare earth colorants, with "Heliolit" and "Alexandrit" being the first two, introduced by Moser in 1929. Leo Moser's papers in the Corning Glass Museum make it clear that the first experimental glass melts done by Moser involving any of the rare earths occurred in November 1927.

After a year of further development, the rare earth glasses were introduced to great acclaim at the Spring 1929 trade show in Leipzig. The Alexandrit and Heliolit names were registered as trademarks in June 1929. The earlier date of 1925 sometimes given for rare earth glass refers to an award for glass design, not glass composition.[6]

Industrial use

The name "didymium" continued to be used in the rare earth metal industry. In the US, commercial "didymium" salts were what remained after cerium had been removed from the natural products obtained from monazite, and thus it contained lanthanum, as well as Mosander's "didymium". A typical composition might have been 46% lanthanum, 34% neodymium, and 11% praseodymium, with the remainder mostly being samarium and gadolinium, for material extracted from South African "rock monazite" from the Steenkampskraal mine.[3]

In ores, neodymium is typically higher in relative abundance in monazite than in bastnäsite. The visual difference is apparent in unseparated mixtures: monazite-derived products have pink tinges, while bastnäsite-derived products have brown tinges due to their higher praseodymium content. The original cerite from Bastnäs may have had a rare earth composition similar to monazite sand.[citation needed]

The European use was closer to Mosander's concept. Such cerium-depleted light lanthanide mixtures have been widely used to make petroleum-cracking catalysts. The actual ratio of neodymium to praseodymium varies somewhat depending on the source of the mineral, but it is often around 3∶1. Neodymium is always present in higher proportions than praseodymium and is responsible for most of the color of didymium salts.[citation needed]

References

  1. ^ Venable, W.H.; Eckerle, K.L. (October 1979). Didymium glass filters for calibrating the wavelength scale of spectrophotometers: SRMs 2009, 2010, 2013, and 2014. National Institute of Standards and Technology. NIST (Report). U.S. Department of Commerce. NIST doc 10486.
  2. ^ a b Emsley, John (2003). Nature's building blocks: an A–Z guide to the elements. Oxford University Press. p. 341. ISBN 0-19-850340-7.
  3. ^ a b c d e Fontani, Marco; Costa, Mariagrazia; Orna, Mary Virginia (2015). The Lost Elements: The Periodic Table's Shadow Side. Oxford University Press. pp. 172–173. ISBN 978-0-19-938334-4.
  4. ^ a b c d Haynes, William M., ed. (2016). "Elements: Neodymium". CRC Handbook of Chemistry and Physics (97th ed.). CRC Press. p. 4.23. ISBN 9781498754293.
  5. ^ von Welsbach, Carl Auer (1885). "Die Zerlegung des Didyms in seine Elemente". Monatshefte für Chemie. 6 (1): 477–491. doi:10.1007/BF01554643. S2CID 95838770.
  6. ^ Langhamer, Antonín (2003). The Legend of Bohemian Glass: A thousand years of glassmaking in the heart of Europe. Tigris. p. 134. ISBN 978-80-86062-11-2.
This page was last edited on 23 December 2023, at 09:58
Basis of this page is in Wikipedia. Text is available under the CC BY-SA 3.0 Unported License. Non-text media are available under their specified licenses. Wikipedia® is a registered trademark of the Wikimedia Foundation, Inc. WIKI 2 is an independent company and has no affiliation with Wikimedia Foundation.