Storing hydrofluoric acid before the invention of plastics Announcing the arrival of Valued Associate #679: Cesar Manara Planned maintenance scheduled April 17/18, 2019 at 00:00UTC (8:00pm US/Eastern)Indonesian Chemical Olympiad: Calculating mass from predicted reactionWhat exactly is Indium's ability to stabilize non-ferrous metals?What causes the yellowing of the linear alkylbenzene (LAB) cocktail?Is this asking for the equivalence point?How were silver and gold separated using the salt cementation process?Does excessive sulfuric acid as catalyst affect the synthesis of aspirin?Material that acts as a “sponge” for sulfuric acid?What metals aren't dissolved in/attacked by aqua regia?Is Hydrogen Dioxide Water? If so, what is the chemical compound and differences between H2O and H2O2?Why was silver considered valuable in history?

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Storing hydrofluoric acid before the invention of plastics



Announcing the arrival of Valued Associate #679: Cesar Manara
Planned maintenance scheduled April 17/18, 2019 at 00:00UTC (8:00pm US/Eastern)Indonesian Chemical Olympiad: Calculating mass from predicted reactionWhat exactly is Indium's ability to stabilize non-ferrous metals?What causes the yellowing of the linear alkylbenzene (LAB) cocktail?Is this asking for the equivalence point?How were silver and gold separated using the salt cementation process?Does excessive sulfuric acid as catalyst affect the synthesis of aspirin?Material that acts as a “sponge” for sulfuric acid?What metals aren't dissolved in/attacked by aqua regia?Is Hydrogen Dioxide Water? If so, what is the chemical compound and differences between H2O and H2O2?Why was silver considered valuable in history?










5












$begingroup$


The first person to synthesize hydrofluoric acid in large quantities was Carl Wilhelm Scheele in 1771. This acid is known for its ability to corrode glass and metals.



What materials were the containers in which it was stored before the invention of plastics?










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New contributor




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Check out our Code of Conduct.







$endgroup$







  • 1




    $begingroup$
    Iron is resistant do HF due to the formation of a dense flouride surface layer. Not sure if he used it.
    $endgroup$
    – Karl
    4 hours ago















5












$begingroup$


The first person to synthesize hydrofluoric acid in large quantities was Carl Wilhelm Scheele in 1771. This acid is known for its ability to corrode glass and metals.



What materials were the containers in which it was stored before the invention of plastics?










share|improve this question









New contributor




Ginasius is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.







$endgroup$







  • 1




    $begingroup$
    Iron is resistant do HF due to the formation of a dense flouride surface layer. Not sure if he used it.
    $endgroup$
    – Karl
    4 hours ago













5












5








5





$begingroup$


The first person to synthesize hydrofluoric acid in large quantities was Carl Wilhelm Scheele in 1771. This acid is known for its ability to corrode glass and metals.



What materials were the containers in which it was stored before the invention of plastics?










share|improve this question









New contributor




Ginasius is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.







$endgroup$




The first person to synthesize hydrofluoric acid in large quantities was Carl Wilhelm Scheele in 1771. This acid is known for its ability to corrode glass and metals.



What materials were the containers in which it was stored before the invention of plastics?







inorganic-chemistry experimental-chemistry halides reference-request history-of-chemistry






share|improve this question









New contributor




Ginasius is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.











share|improve this question









New contributor




Ginasius is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.









share|improve this question




share|improve this question








edited 1 hour ago









andselisk

19.5k664126




19.5k664126






New contributor




Ginasius is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.









asked 4 hours ago









GinasiusGinasius

1263




1263




New contributor




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Check out our Code of Conduct.





New contributor





Ginasius is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.






Ginasius is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.







  • 1




    $begingroup$
    Iron is resistant do HF due to the formation of a dense flouride surface layer. Not sure if he used it.
    $endgroup$
    – Karl
    4 hours ago












  • 1




    $begingroup$
    Iron is resistant do HF due to the formation of a dense flouride surface layer. Not sure if he used it.
    $endgroup$
    – Karl
    4 hours ago







1




1




$begingroup$
Iron is resistant do HF due to the formation of a dense flouride surface layer. Not sure if he used it.
$endgroup$
– Karl
4 hours ago




$begingroup$
Iron is resistant do HF due to the formation of a dense flouride surface layer. Not sure if he used it.
$endgroup$
– Karl
4 hours ago










1 Answer
1






active

oldest

votes


















8












$begingroup$

In the original 1771 experiment, Scheele used a very simple setup consisting of a glass retort with a glass receiver (round-bottom flask).



Yes, the glass was etched to some degree by the fumes, but it was not drastic enough to destroy the apparatus.



From Anders Lennartson's The Chemical Works of Carl Wilhelm Scheele [1, p. 22]:




3.1 Publication 1. Investigation of Fluorite and Hydrofluoric Acid



Original publication: Kongl. Vetenskaps Academiens Handlingar. 1771, 32,
120–138.
Original title translated to English: Investigation of fluorspar and its acid





The second paragraph of the paper deals with the action of acids on fluorite, and
this is where the important discovery is made. Scheele mixed powdered fluorite
with sulphuric acid (oil of vitriol) and heated it in a retort (Fig. 3.3) whereupon corrosive fumes were emitted. He repeated the experiment with some water in the receiver. He found that a white crust was formed on the water surface, and that the water contained a dissolved acid. The inner surface of the retort was etched by the fumes. Scheele identified the white crust as silicon dioxide (siliceous earth) and the residue in the retort as calcium sulphate (selenite or gypsum). This lead Scheele to the conclusion that “Fluor [fluorite], therefore, consists principally of calcareous earth [calcium oxide], saturated with a peculiar acid; the nature of which we shall investigate hereafter”.



Scheele's first apparatus to obtain HF
Fig. 3.3 Schematic view of the apparatus Scheele used for preparing “acid of fluorspar”




In response to critics, to prove that the glassware itself was the source of the white silicon dioxide powder, Scheele improved the setup, protecting the inner walls with tin and wax.



Continuing from [1, p. 98]:




3.60 Publication 60. Experiments with Hydrofluoric Acid



Original publication: Chemische Annalen für die Freunde der Naturlehre.
1786, part 1, 3–17.
Original title translated to English: New evidence for the characteristic nature of the acid of fluor spar





Scheele powdered fluorite in a brass mortar, mixed the powder with sulphuric
acid (oil of vitriol) and transferred it to a retort lined with tin. The receiver was lined with wax, and partly filled with water. This time Scheele obtained a distillate free from precipitated silicon dioxide (siliceous earth), and addition of potassium hydroxide gave no precipitate (i.e. no $ceK2SiF6$). Thus, this was pure hydrofluoric acid, $ce HF_(aq) $; similar results had been reported by Scheele’s friend, J.C.F. Meyer in Stettin.




References



  1. Lennartson, A. The Chemical Works of Carl Wilhelm Scheele; Springer Berlin Heidelberg: New York, NY, 2017. ISBN 978-3-319-58180-4.





share|improve this answer











$endgroup$








  • 2




    $begingroup$
    Super fantastic history lesson!
    $endgroup$
    – MaxW
    3 hours ago










  • $begingroup$
    @CodyGray Thank you for the edit and corrections, I appreciate it!
    $endgroup$
    – andselisk
    14 mins ago











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1 Answer
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1 Answer
1






active

oldest

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active

oldest

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active

oldest

votes









8












$begingroup$

In the original 1771 experiment, Scheele used a very simple setup consisting of a glass retort with a glass receiver (round-bottom flask).



Yes, the glass was etched to some degree by the fumes, but it was not drastic enough to destroy the apparatus.



From Anders Lennartson's The Chemical Works of Carl Wilhelm Scheele [1, p. 22]:




3.1 Publication 1. Investigation of Fluorite and Hydrofluoric Acid



Original publication: Kongl. Vetenskaps Academiens Handlingar. 1771, 32,
120–138.
Original title translated to English: Investigation of fluorspar and its acid





The second paragraph of the paper deals with the action of acids on fluorite, and
this is where the important discovery is made. Scheele mixed powdered fluorite
with sulphuric acid (oil of vitriol) and heated it in a retort (Fig. 3.3) whereupon corrosive fumes were emitted. He repeated the experiment with some water in the receiver. He found that a white crust was formed on the water surface, and that the water contained a dissolved acid. The inner surface of the retort was etched by the fumes. Scheele identified the white crust as silicon dioxide (siliceous earth) and the residue in the retort as calcium sulphate (selenite or gypsum). This lead Scheele to the conclusion that “Fluor [fluorite], therefore, consists principally of calcareous earth [calcium oxide], saturated with a peculiar acid; the nature of which we shall investigate hereafter”.



Scheele's first apparatus to obtain HF
Fig. 3.3 Schematic view of the apparatus Scheele used for preparing “acid of fluorspar”




In response to critics, to prove that the glassware itself was the source of the white silicon dioxide powder, Scheele improved the setup, protecting the inner walls with tin and wax.



Continuing from [1, p. 98]:




3.60 Publication 60. Experiments with Hydrofluoric Acid



Original publication: Chemische Annalen für die Freunde der Naturlehre.
1786, part 1, 3–17.
Original title translated to English: New evidence for the characteristic nature of the acid of fluor spar





Scheele powdered fluorite in a brass mortar, mixed the powder with sulphuric
acid (oil of vitriol) and transferred it to a retort lined with tin. The receiver was lined with wax, and partly filled with water. This time Scheele obtained a distillate free from precipitated silicon dioxide (siliceous earth), and addition of potassium hydroxide gave no precipitate (i.e. no $ceK2SiF6$). Thus, this was pure hydrofluoric acid, $ce HF_(aq) $; similar results had been reported by Scheele’s friend, J.C.F. Meyer in Stettin.




References



  1. Lennartson, A. The Chemical Works of Carl Wilhelm Scheele; Springer Berlin Heidelberg: New York, NY, 2017. ISBN 978-3-319-58180-4.





share|improve this answer











$endgroup$








  • 2




    $begingroup$
    Super fantastic history lesson!
    $endgroup$
    – MaxW
    3 hours ago










  • $begingroup$
    @CodyGray Thank you for the edit and corrections, I appreciate it!
    $endgroup$
    – andselisk
    14 mins ago















8












$begingroup$

In the original 1771 experiment, Scheele used a very simple setup consisting of a glass retort with a glass receiver (round-bottom flask).



Yes, the glass was etched to some degree by the fumes, but it was not drastic enough to destroy the apparatus.



From Anders Lennartson's The Chemical Works of Carl Wilhelm Scheele [1, p. 22]:




3.1 Publication 1. Investigation of Fluorite and Hydrofluoric Acid



Original publication: Kongl. Vetenskaps Academiens Handlingar. 1771, 32,
120–138.
Original title translated to English: Investigation of fluorspar and its acid





The second paragraph of the paper deals with the action of acids on fluorite, and
this is where the important discovery is made. Scheele mixed powdered fluorite
with sulphuric acid (oil of vitriol) and heated it in a retort (Fig. 3.3) whereupon corrosive fumes were emitted. He repeated the experiment with some water in the receiver. He found that a white crust was formed on the water surface, and that the water contained a dissolved acid. The inner surface of the retort was etched by the fumes. Scheele identified the white crust as silicon dioxide (siliceous earth) and the residue in the retort as calcium sulphate (selenite or gypsum). This lead Scheele to the conclusion that “Fluor [fluorite], therefore, consists principally of calcareous earth [calcium oxide], saturated with a peculiar acid; the nature of which we shall investigate hereafter”.



Scheele's first apparatus to obtain HF
Fig. 3.3 Schematic view of the apparatus Scheele used for preparing “acid of fluorspar”




In response to critics, to prove that the glassware itself was the source of the white silicon dioxide powder, Scheele improved the setup, protecting the inner walls with tin and wax.



Continuing from [1, p. 98]:




3.60 Publication 60. Experiments with Hydrofluoric Acid



Original publication: Chemische Annalen für die Freunde der Naturlehre.
1786, part 1, 3–17.
Original title translated to English: New evidence for the characteristic nature of the acid of fluor spar





Scheele powdered fluorite in a brass mortar, mixed the powder with sulphuric
acid (oil of vitriol) and transferred it to a retort lined with tin. The receiver was lined with wax, and partly filled with water. This time Scheele obtained a distillate free from precipitated silicon dioxide (siliceous earth), and addition of potassium hydroxide gave no precipitate (i.e. no $ceK2SiF6$). Thus, this was pure hydrofluoric acid, $ce HF_(aq) $; similar results had been reported by Scheele’s friend, J.C.F. Meyer in Stettin.




References



  1. Lennartson, A. The Chemical Works of Carl Wilhelm Scheele; Springer Berlin Heidelberg: New York, NY, 2017. ISBN 978-3-319-58180-4.





share|improve this answer











$endgroup$








  • 2




    $begingroup$
    Super fantastic history lesson!
    $endgroup$
    – MaxW
    3 hours ago










  • $begingroup$
    @CodyGray Thank you for the edit and corrections, I appreciate it!
    $endgroup$
    – andselisk
    14 mins ago













8












8








8





$begingroup$

In the original 1771 experiment, Scheele used a very simple setup consisting of a glass retort with a glass receiver (round-bottom flask).



Yes, the glass was etched to some degree by the fumes, but it was not drastic enough to destroy the apparatus.



From Anders Lennartson's The Chemical Works of Carl Wilhelm Scheele [1, p. 22]:




3.1 Publication 1. Investigation of Fluorite and Hydrofluoric Acid



Original publication: Kongl. Vetenskaps Academiens Handlingar. 1771, 32,
120–138.
Original title translated to English: Investigation of fluorspar and its acid





The second paragraph of the paper deals with the action of acids on fluorite, and
this is where the important discovery is made. Scheele mixed powdered fluorite
with sulphuric acid (oil of vitriol) and heated it in a retort (Fig. 3.3) whereupon corrosive fumes were emitted. He repeated the experiment with some water in the receiver. He found that a white crust was formed on the water surface, and that the water contained a dissolved acid. The inner surface of the retort was etched by the fumes. Scheele identified the white crust as silicon dioxide (siliceous earth) and the residue in the retort as calcium sulphate (selenite or gypsum). This lead Scheele to the conclusion that “Fluor [fluorite], therefore, consists principally of calcareous earth [calcium oxide], saturated with a peculiar acid; the nature of which we shall investigate hereafter”.



Scheele's first apparatus to obtain HF
Fig. 3.3 Schematic view of the apparatus Scheele used for preparing “acid of fluorspar”




In response to critics, to prove that the glassware itself was the source of the white silicon dioxide powder, Scheele improved the setup, protecting the inner walls with tin and wax.



Continuing from [1, p. 98]:




3.60 Publication 60. Experiments with Hydrofluoric Acid



Original publication: Chemische Annalen für die Freunde der Naturlehre.
1786, part 1, 3–17.
Original title translated to English: New evidence for the characteristic nature of the acid of fluor spar





Scheele powdered fluorite in a brass mortar, mixed the powder with sulphuric
acid (oil of vitriol) and transferred it to a retort lined with tin. The receiver was lined with wax, and partly filled with water. This time Scheele obtained a distillate free from precipitated silicon dioxide (siliceous earth), and addition of potassium hydroxide gave no precipitate (i.e. no $ceK2SiF6$). Thus, this was pure hydrofluoric acid, $ce HF_(aq) $; similar results had been reported by Scheele’s friend, J.C.F. Meyer in Stettin.




References



  1. Lennartson, A. The Chemical Works of Carl Wilhelm Scheele; Springer Berlin Heidelberg: New York, NY, 2017. ISBN 978-3-319-58180-4.





share|improve this answer











$endgroup$



In the original 1771 experiment, Scheele used a very simple setup consisting of a glass retort with a glass receiver (round-bottom flask).



Yes, the glass was etched to some degree by the fumes, but it was not drastic enough to destroy the apparatus.



From Anders Lennartson's The Chemical Works of Carl Wilhelm Scheele [1, p. 22]:




3.1 Publication 1. Investigation of Fluorite and Hydrofluoric Acid



Original publication: Kongl. Vetenskaps Academiens Handlingar. 1771, 32,
120–138.
Original title translated to English: Investigation of fluorspar and its acid





The second paragraph of the paper deals with the action of acids on fluorite, and
this is where the important discovery is made. Scheele mixed powdered fluorite
with sulphuric acid (oil of vitriol) and heated it in a retort (Fig. 3.3) whereupon corrosive fumes were emitted. He repeated the experiment with some water in the receiver. He found that a white crust was formed on the water surface, and that the water contained a dissolved acid. The inner surface of the retort was etched by the fumes. Scheele identified the white crust as silicon dioxide (siliceous earth) and the residue in the retort as calcium sulphate (selenite or gypsum). This lead Scheele to the conclusion that “Fluor [fluorite], therefore, consists principally of calcareous earth [calcium oxide], saturated with a peculiar acid; the nature of which we shall investigate hereafter”.



Scheele's first apparatus to obtain HF
Fig. 3.3 Schematic view of the apparatus Scheele used for preparing “acid of fluorspar”




In response to critics, to prove that the glassware itself was the source of the white silicon dioxide powder, Scheele improved the setup, protecting the inner walls with tin and wax.



Continuing from [1, p. 98]:




3.60 Publication 60. Experiments with Hydrofluoric Acid



Original publication: Chemische Annalen für die Freunde der Naturlehre.
1786, part 1, 3–17.
Original title translated to English: New evidence for the characteristic nature of the acid of fluor spar





Scheele powdered fluorite in a brass mortar, mixed the powder with sulphuric
acid (oil of vitriol) and transferred it to a retort lined with tin. The receiver was lined with wax, and partly filled with water. This time Scheele obtained a distillate free from precipitated silicon dioxide (siliceous earth), and addition of potassium hydroxide gave no precipitate (i.e. no $ceK2SiF6$). Thus, this was pure hydrofluoric acid, $ce HF_(aq) $; similar results had been reported by Scheele’s friend, J.C.F. Meyer in Stettin.




References



  1. Lennartson, A. The Chemical Works of Carl Wilhelm Scheele; Springer Berlin Heidelberg: New York, NY, 2017. ISBN 978-3-319-58180-4.






share|improve this answer














share|improve this answer



share|improve this answer








edited 17 mins ago









Cody Gray

1178




1178










answered 3 hours ago









andseliskandselisk

19.5k664126




19.5k664126







  • 2




    $begingroup$
    Super fantastic history lesson!
    $endgroup$
    – MaxW
    3 hours ago










  • $begingroup$
    @CodyGray Thank you for the edit and corrections, I appreciate it!
    $endgroup$
    – andselisk
    14 mins ago












  • 2




    $begingroup$
    Super fantastic history lesson!
    $endgroup$
    – MaxW
    3 hours ago










  • $begingroup$
    @CodyGray Thank you for the edit and corrections, I appreciate it!
    $endgroup$
    – andselisk
    14 mins ago







2




2




$begingroup$
Super fantastic history lesson!
$endgroup$
– MaxW
3 hours ago




$begingroup$
Super fantastic history lesson!
$endgroup$
– MaxW
3 hours ago












$begingroup$
@CodyGray Thank you for the edit and corrections, I appreciate it!
$endgroup$
– andselisk
14 mins ago




$begingroup$
@CodyGray Thank you for the edit and corrections, I appreciate it!
$endgroup$
– andselisk
14 mins ago










Ginasius is a new contributor. Be nice, and check out our Code of Conduct.









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