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wombat1138) wrote2010-05-30 01:33 pm
wombat1138) wrote2010-05-30 01:33 pm
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Glass tech notes
"Astralite": borosilicate variation of hematinon/haematinone/etc.; has blue dichroism.
Ratio-based formula (no specific units given; check modern nomenclature):
Main melt--
80 silica : 120 lead oxide : 72 carbonate of soda : anhydrous borax
Fuse w/ one of the two following mixes--
24 scale oxide of copped: 1 scale oxide of iron; or
5 lime: 26 scale oxide of copper : 2 scale oxide of iron
--"in a hessian crucible at the heat of an ordinary air-furnace'; leave to cool slowly inside furnace. First mix melts more easily and creates larger crystals.
(What *is* "ordinary air-furnace" temperature?)
"Porpora" glass (a.k.a. "porphyrin" et al.?): "a [copper-based] glass which has a rusty-red color by reflected light and a purple-blue color by transmitted light"?
Refs here (starting at bottom of page) and here.
Latter ref describes formula as 35.8% silica, 39.06% lead oxide, 7.8% cuprous oxide, 4.31% calcium oxide, 2.6% potassium oxide, 6.31% sodium oxide, but also says the result resembles haematinone?
The former ref analyzes that formula wrt a then-current theory about glass colors being produced by hydrated ions, if I'm skimming correctly.
No comments about porpora working conditions in either ref.
Via Monographien über angewandte Elektrochemie - Page 49, 1905 and Google Translate:
Faberge "purpurin(e)": appears to be a dichroic aventurescent glass, ranging from tawny orange to indigo depending on angle of reflected light; appears to be opaque?
Philosophical transactions of the Royal Society of London, Series A, Volume 203, Sept. 1904. "II: On the Structure of Gold-Leaf and the Absorption Spectrum of Gold." JW Mallet, Dept. Chem. U. Va. Pertinent passages on pp 49-51:
Verhandlungen Vol. 7, Deutsche Physikalische Gesellschaft (1899-1945), p. 276:
Verhandlungen der deutschen physikalischen Gesellschaft 1905, p 278; I made some minor changes in transcribing the original Germn text into Google Translate to make the result flow more smoothly:
Ratio-based formula (no specific units given; check modern nomenclature):
Main melt--
80 silica : 120 lead oxide : 72 carbonate of soda : anhydrous borax
Fuse w/ one of the two following mixes--
24 scale oxide of copped: 1 scale oxide of iron; or
5 lime: 26 scale oxide of copper : 2 scale oxide of iron
--"in a hessian crucible at the heat of an ordinary air-furnace'; leave to cool slowly inside furnace. First mix melts more easily and creates larger crystals.
(What *is* "ordinary air-furnace" temperature?)
"Porpora" glass (a.k.a. "porphyrin" et al.?): "a [copper-based] glass which has a rusty-red color by reflected light and a purple-blue color by transmitted light"?
Refs here (starting at bottom of page) and here.
Latter ref describes formula as 35.8% silica, 39.06% lead oxide, 7.8% cuprous oxide, 4.31% calcium oxide, 2.6% potassium oxide, 6.31% sodium oxide, but also says the result resembles haematinone?
The former ref analyzes that formula wrt a then-current theory about glass colors being produced by hydrated ions, if I'm skimming correctly.
No comments about porpora working conditions in either ref.
Via Monographien über angewandte Elektrochemie - Page 49, 1905 and Google Translate:
Setzt man Kupferoxydul zu einem Satz klaren Glases im Schmelzflusse, so loest es sich darin auf. Nach dem Abkuehlen erhaelt man ein blaues Glas, das Kuegelchen von metallischen Kupfer enthaelt. Das Oxydulsilikat zersetzt sich also in der Hitze in Oxydsilicat und metallisches Kupfer. Der Haematinon unterscheidet sich dadurch vom Rubin, dass man in demselben unter dem Mikroscop bereits deutlich einen prachtvoll kristallisierten metallglaenzenden Koerper wahrnimmt.
If we set a clear glass with cuprous oxide in the melt stream, so it solves itself in it. After cooling, a blue glass, which contains beads of metallic copper. The Oxydulsilikat decomposes so in the heat in Oxydsilicat and metallic copper. The Haematinon is different from Rubin that in the same under the microscope already clearly perceives a metallic luster beautifully crystallized body.
Faberge "purpurin(e)": appears to be a dichroic aventurescent glass, ranging from tawny orange to indigo depending on angle of reflected light; appears to be opaque?
Philosophical transactions of the Royal Society of London, Series A, Volume 203, Sept. 1904. "II: On the Structure of Gold-Leaf and the Absorption Spectrum of Gold." JW Mallet, Dept. Chem. U. Va. Pertinent passages on pp 49-51:
Glass coloured by gold so as to transmit greenish-blue light-- the so-called saphirine glass.
Verhandlungen Vol. 7, Deutsche Physikalische Gesellschaft (1899-1945), p. 276:
Entsprechend der groessten Haeufigkeit von blauern natuerlichern und kuenstlichern Steinsalz erscheinen die meisten Teilchen von rostbrauner Farbe, analog den rostbraunen Goldteilchen, welche das Saphringlas blau faerben.
[Google Translate] blue line with the highest frequency of natural and man-made rock salt appear most of the particles of rust-brown color, similar to the rust-colored gold particles, which dye the Saphringlas blue.
Verhandlungen der deutschen physikalischen Gesellschaft 1905, p 278; I made some minor changes in transcribing the original Germn text into Google Translate to make the result flow more smoothly:
Pseudofluoreszenz. Bei mit Na-Dampf intensiv gefaerbten Stuecken bemerkt man deutlich das Phaenomen des sogenannten Pseudopleochroismus oder der Pseudofluoreszenz. Hierunter verstehe ich die bei gewissen Koerpern, welche den TYNDALL schen Lichtkegel zeigen, auftretende Erscheinung, auf schwarzen Hintergrunde zeigen (im auffallenden Lichte) eine andere Farbe zu zeigen, als auf weissen Hintergrunde (im durchfallenden Lichte), wenn die Erscheinung darauf beruht, dass in ersterem Falle die Farbe des Koerpers durch das von den einzelnen submikroskopischen Teilchen abgebeugte Licht sichtbar wird, waehrend auf weissern Hintergrunde oder im durchfallenden Lichte das Praeparat in derjenigen Farbe erscheint, welche nicht von den submikroskopischen Teilchen abgebeugt wird. Besonders geeignete Beispiele bieten hierfuer ferner das blaue Saphiringlas, und das gelbe Silberglas. Je nachdern der Untergrund hell oder dunket ist, erscheint das erstere blau oder rostbraun, das letztere blauviolett oder gelb. Diese Erscheinung ist irrtuemlich sehr oft als Fluoreszenz oder Irisieren gedeutet worden. Sie ist jedoch im allgemeinen, d.h. bei isotropen Koerpern. sehr leicht mit Hilfe einse Analysators von Fluoreszenz zu unterscheiden.
Pseudo-fluorescence. When using sodium vapor intensively stained pieces we notice clearly the phenomenon of so-called pseudo Pseudopleochroismus or fluorescence. By this I mean the case of certain bodies, which show the Tyndall between light cones, occurring phenomenon, on a black background to show (in reflected light) to show a different color than on white background (in transmitted light), if the phenomenon is due to the fact that in the former case, the color of the body by each of the submicroscopic particles diffracted light is visible, while appears on a white background or in transmitted light, the preparation of those in color, which is not diffracted by the submicroscopic particles. Particularly suitable examples are therefor also the blue Saphiringlas, the yellow and silver glass. The more the surface after light or obscurity, the former appears blue or rust-brown, the latter blue purple or yellow. This phenomenon has been erroneously interpreted very often as a fluorescent or iridescence. It is, however, in general, i.e. for isotropic bodies. very easy to distinguish one analyzer with the help of fluorescence.