Identification
A:
Place about 1 g in a platinum crucible in a well-ventilated hood, and add 15 mL of sulfuric acid. Cover the crucible with a piece of clear, polished glass, and heat on a steam bath for 1 hour. Remove the glass cover, rinse it in water, and dry: the glass surface exposed to vapors from the crucible is etched.
B:
A solution (1 in 10) with silver nitrate TS yields a white precipitate, which is soluble in diluted nitric acid and in dilute ammonium hydroxide (1 in 2).
C:
A solution responds to the tests for
Sodium 191.
Limit of fluoride ion
[NOTEUse plasticware throughout this test.
]
Buffer solution
To 55 g of sodium chloride in a 1000-mL volumetric flask add 500 mg of sodium citrate, 255 g of sodium acetate, and 300 mL of water. Shake to dissolve, and cautiously add 115 mL of glacial acetic acid with mixing. Cool to room temperature, add 300 mL of isopropyl alcohol, dilute with water to volume, and mix: the pH of this solution is between 5.0 and 5.5.
Standard stock solution
Dissolve an accurately weighed quantity of
USP Sodium Fluoride RS quantitatively in water to obtain a solution containing 1105 µg per mL. Each mL of this solution contains 500 µg of fluoride ion. Store in a tightly closed, plastic container.
Standard preparations
To four 100-mL volumetric flasks transfer, respectively, 2.0-, 4.0-, 10.0-, and 20.0-mL portions of the Standard stock solution, dilute each with Buffer solution to volume, and mix to obtain solutions having fluoride ion concentrations of 10, 20, 50, and 100 µg per mL, respectively.
Test preparation
Transfer about 1.8 g, accurately weighed, to a 100-mL volumetric flask, add water to dissolve, dilute with water to volume, and mix. Transfer 20.0 mL of this solution to a second 100-mL volumetric flask, dilute with Buffer solution to volume, and mix.
Procedure
Concomitantly measure the potential (see
pH 791), in mV, of the
Standard preparations and of the
Test preparation with a pH meter capable of a minimum reproducibility of ±0.2 mV, equipped with a glass-sleeved calomel-fluoride specific-ion electrode system.
[NOTEWhen taking measurements, immerse the electrodes in the solution, which has been transferred to a 150-mL plastic beaker containing a plastic-coated stirring bar. Allow to stir on a magnetic stirrer having an insulated top until equilibrium is attained (1 to 2 minutes), and record the potential. Rinse and dry the electrodes between measurements, taking care to avoid damaging the crystal of the specific-ion electrode.
] Plot the logarithm of the fluoride-ion concentrations, in µg per mL, of each
Standard preparation versus potential, in mV. From the measured potential of the
Test preparation and the standard curve, determine the concentration, in µg per mL, of fluoride ion in the
Test preparation: not more than 1.2% is found.
Assay
Monochloroacetate buffer
Dissolve 189 g of monochloroacetic acid and 55 g of sodium hydroxide in about 1500 mL of water. Cool, dilute with water to 2000 mL, and mix.
0.025 M Thorium nitrate
Dissolve 13.8 g of thorium nitrate in about 800 mL of water, and filter the solution into a 1000-mL volumetric flask. Dilute with water to volume, and mix. Standardize this solution as follows. Transfer 20.0 mL of
Standard stock solution, prepared as directed in the test for
Limit of fluoride ion, to a 150-mL beaker containing 50 mL of water. Add 3 drops of
sodium alizarinsulfonate TS, mix, and adjust the acidity by the careful addition, successively, of sodium hydroxide solution (1 in 50) and dilute hydrochloric acid (1 in 160), until the pink color has just been discharged. Add 1 mL of
Monochloroacetate buffer, and titrate with
0.025 M Thorium nitrate to a permanent pink color. Calculate the molarity of the thorium nitrate titrant taken by the equation:
M = (S) / [(4)(41.99V)],
in which
S is the weight, in mg, of
USP Sodium Fluoride RS in the portion of
Standard stock solution taken, 41.99 is the molecular weight of sodium fluoride, and
V is the volume, in mL, of titrant consumed.
Procedure
Transfer about 1.8 g of Sodium Monofluorophosphate, accurately weighed, to a 100-mL volumetric flask. Add about 50 mL of water, mix to effect solution, dilute with water to volume, and mix. Transfer 20.0 mL of this solution to the reaction flask of a suitable fluoride steam distilling apparatus containing 10 lime-glass beads measuring 5 mm in diameter and 70 mL of dilute sulfuric acid (1 in 2). Distill, by passing steam through the solution in the reaction flask and applying heat to the flask, collecting the distillate in a 250-mL volumetric flask. Control the temperature of the solution in the reaction flask so that it does not exceed 140
. Change receivers when the flask is filled to volume with distillate, and continue distilling into a 400-mL beaker until an additional 150 mL to 200 mL of distillate tailing has been collected. Mix the solution in the 250-mL volumetric flask, and transfer 50.0 mL to a 150-mL beaker. To the 150-mL beaker add 50 mL of water and 3 drops of
sodium alizarinsulfonate TS, and mix. Adjust the acidity of this solution by the careful addition, successively, of sodium hydroxide solution (1 in 50) and dilute hydrochloric acid (1 in 160), until the pink color has just been discharged. Add 1 mL of
Monochloroacetate buffer, titrate with
0.025 M Thorium nitrate to a permanent pink color, and record the volume, in mL, of titrant consumed as
VA. Add 3 drops of
sodium alizarinsulfonate TS to the distillation tail in the 400-mL beaker, proceed as directed previously with the adjustment of the acidity, the addition of
Monochloroacetate buffer, and the titration with
0.025 M Thorium nitrate, and record the volume, in mL, of titrant consumed as
VB. Calculate the percentage of Na
2PFO
3 in the Sodium Monofluorophosphate taken by the formula:
[(2)(143.95)(5
VA +
VB)(
M) / (
W)]
(143.95 / 18.9984)(
F),
in which
M is the molarity of
0.025 M Thorium nitrate; W is the weight, in g, of the Sodium Monofluorophosphate taken;
F is the percentage of fluoride ions determined as directed in the test for
Limit of fluoride ion; 143.95 is the molecular weight of sodium monofluorophosphate; 18.9984 is the atomic weight of fluorine; and the other terms are as defined therein.