Packaging and storage
Preserve in well-closed containers.
Labeling
Label Solution to state the solvent and form of glycine used and the claimed concentration of anhydrous aluminum zirconium tetrachlorohydrate.
Identification
A:
A solution containing the equivalent of about 100 mg of anhydrous aluminum zirconium tetrachlorohydrate per mL responds to the test for
Chloride 191.
B: Identification of propylene glycol (where stated on the label)
Add about 10 mL of isopropyl alcohol to 2 g of Solution, mix, and filter. Evaporate the filtrate to about 1 mL on a steam bath: the IR spectrum of a film of this solution on a silver chloride disk exhibits maxima only at the same wavelengths as that of a similar preparation of a film of propylene glycol.
C: Identification of dipropylene glycol (where stated on the label)
Add about 10 mL of isopropyl alcohol to 2 g of Solution, mix, and filter. Evaporate the filtrate to about 1 mL on a steam bath: the IR spectrum of a film of this solution on a silver chloride disk exhibits maxima only at the same wavelengths as that of a similar preparation of a film of dipropylene glycol.
D: Identification of glycine
Place about 1 g of Solution in a 50-mL beaker, add about 20 mL of water, and swirl to dissolve. Heat to boiling on a hot plate, and add about 60 mg of ninhydrin: a deep violet color immediately develops.
pH 791:
between 3.0 and 5.0, in a solution prepared by diluting 3 g of the Solution with water to obtain 10 mL.
Arsenic, Method I 211
Prepare the
Test Preparation using an accurately weighed quantity of the Solution. The limit is 2 µg per g.
Heavy metals, Method I 231
Proceed as directed in the chapter, except to use the following modifications.
Test Preparation
Prepare as directed in the chapter, using an accurately weighed quantity of Solution. If the solution is not clear after dilution to 40 mL, heat for several minutes between 60
and 80
, and cool to room temperature. If the solution remains cloudy, repeat from the beginning with the following modification: add 3 mL of hydrochloric acid prior to adjustment of the pH with 6 N ammonium hydroxide.
Monitor Preparation
Prepare as directed in the chapter, using the same modifications described for Test Preparation if necessary.
Procedure
To each of the three tubes containing the
Standard Preparation, the
Test Preparation, and the
Monitor Preparation, add 2 mL of
pH 3.5 Acetate Buffer, and heat gently to between 60
and 80
. To the
Standard Preparation add 6 drops of
sodium sulfide TS. To the
Test Preparation and the
Monitor Preparation add 12 drops of
sodium sulfide TS. Cool to room temperature, and dilute the contents of each tube with water to 50 mL. Gently mix each tube by inverting twice. Allow to stand for 5 minutes, and view downward over a white surface. The color of the solution from the
Test Preparation is not darker than that of the solution from the
Standard Preparation, and the color of the solution from the
Monitor Preparation is the same as or darker than the color of the solution from the
Standard Preparation. If the color of the solution from the
Monitor Preparation is lighter than the color of the solution from the
Standard Preparation, repeat the procedure with the following modification: after the heating step, to the
Monitor Preparation and the
Test Preparation add 1.0 mL, instead of 12 drops, of
sodium sulfide TS. Not more than 10 µg per g is found.
Limit of iron
Using about 5.4 g of Aluminum Zirconium Tetrachlorohydrex Gly Solution, accurately weighed, instead of Aluminum Zirconium Octachlorohydrate, proceed as directed in the test for the
Limit of iron under
Aluminum Zirconium Octachlorohydrate. The limit is 75 µg per g.
Content of aluminum
Using about 0.3 g of Aluminum Zirconium Tetrachlorohydrex Gly Solution instead of Aluminum Zirconium Octachlorohydrate, proceed as directed in the test for the
Content of aluminum under
Aluminum Zirconium Octachlorohydrate. Use the result to calculate the
Aluminum/zirconium atomic ratio and the (
Aluminum plus zirconium)/
chloride atomic ratio.
Content of zirconium
Using about 500 mg of Aluminum Zirconium Tetrachlorohydrex Gly Solution, accurately weighed, instead of Aluminum Zirconium Octachlorohydrate, proceed as directed in the test for the
Content of zirconium under
Aluminum Zirconium Octachlorohydrate. Use the result to calculate the
Aluminum/zirconium atomic ratio and the (
Aluminum plus zirconium)/
chloride atomic ratio.
Aluminum/zirconium atomic ratio
Divide the percentage of aluminum found in the test for Content of aluminum by the percentage of zirconium found in the test for Content of zirconium, and multiply by 92.97/26.98, in which 92.97 is the atomic weight of zirconium corrected for 2% hafnium content, and 26.98 is the atomic weight of aluminum: the ratio is between 2.0:1 and 5.99:1.
Content of chloride
Using about 500 mg of Aluminum Zirconium Tetrachlorohydrex Gly Solution, accurately weighed, instead of Aluminum Zirconium Octachlorohydrate, proceed as directed in the test for the
Content of chloride under
Aluminum Zirconium Octachlorohydrate. Use the result to calculate the (
Aluminum plus zirconium)/
chloride atomic ratio.
(Aluminum plus zirconium)/chloride atomic ratio
Calculate the (aluminum plus zirconium)/chloride atomic ratio by the formula:
[(Al/26.98) + (Zr/92.97)]/(Cl/35.453),
in which
Al,
Zr, and
Cl are the percentages of aluminum, zirconium, and chloride found in the tests for
Content of aluminum,
Content of zirconium, and
Content of chloride, respectively; 26.98 is the atomic weight of aluminum; 92.97 is the atomic weight of zirconium corrected for 2% hafnium content; and 35.453 is the atomic weight of chlorine: the ratio is between 1.5:1 and 0.9:1.
Assay
Calculate the percentage of anhydrous aluminum zirconium tetrachlorohydrate in the Solution by the formula:
Al({26.98
y + 92.97 + 17.01[3
y + 4
(
y + 1)/
z] + 35.453(
y + 1)/
z}/26.98
y),
in which
Al is the percentage of aluminum found in the test for
Content of aluminum,
y is the aluminum/zirconium atomic ratio found in the test for
Aluminum/
zirconium atomic ratio,
z is the (aluminum plus zirconium)/chloride atomic ratio found in the test for (
Aluminum plus zirconium)/
chloride atomic ratio, 26.98 is the atomic weight of aluminum, 92.97 is the atomic weight of zirconium corrected for 2% hafnium content, 17.01 is the molecular weight of the hydroxide anion (OH), and 35.453 is the atomic weight of chlorine (Cl).