Applications

Determination of Copper in Graphite Powder (Flame Atomic Absorption Spectrometry)

septembre 4, 2025

1. Method Overview

After the sample is digested with aqua regia, the determination is carried out using an air-acetylene flame at an instrument wavelength of 324.7 nm.

2. Instruments and Reagents

2.1 Instruments and Equipment

2.1.1 Testing Instruments

Serial No.	Nom	Quantité	Technical Requirements	Accessoires
1	Flame Atomic Absorption Spectrophotometer	1 set	–	Copper Hollow Cathode Lamp
2	Acetylene Gas	1 cylinder	Purity ≥ 99.99%	–
3	Air Compressor	1 set	Rated discharge pressure: 0.3 MPa	–

2.1.2 Sample Pretreatment Equipment

Serial No.	Nom	Quantité	Technical Requirements	Accessoires
1	Temperature-Controlled Hot Plate	1 set	Rated temperature: Room temperature ~ 300℃	–
2	Electronic Balance	1 set	Sensitivity: 0.1 mg	–
3	Ultrapure Water System	1 set	–	–
4	Micropipette	1 each	Ranges: 20 μL~200 μL, 100 μL~1000 μL	–
5	Volumetric Flask	Several	Volume: 100 mL	–
6	Test Tube	Several	Volume: 25 mL	–

2.2 Reagents

2.2.1 Raw Reagents

Serial No.	Nom	Technical Requirements	Remarques
1	Nitric Acid	MOS Grade	–
2	Hydrochloric Acid	Guaranteed Reagent (GR)	–

2.2.2 Prepared Reagents

Serial No.	Nom	Preparation Method	Remarques
1	Nitric Acid Solution (1+99)	Measure 10 mL of nitric acid, slowly add it to 990 mL of deionized water, and mix well.	–

2.3 Reference Standards

2.3.1 Stock Solution

Serial No.	No.	Nom	Technical Requirements	Remarques
1	GBW 08615	Copper Single-Element Standard Solution	Concentration: 1000 μg/mL	National Institute of Metrology, China

3. Result Calculation

The copper content in the sample is calculated using the following formula:

Où:

$X$ = Copper content in the sample, unit: milligram per kilogram (mg/kg);
ρ= Mass concentration of copper in the sample test solution, unit: microgram per milliliter (μg/mL);
$ρ0$ = Mass concentration of copper in the blank solution, unit: microgram per milliliter (μg/mL);
$f$ = Dilution factor of the digested sample solution;
$V$ = Total volume of the digested sample solution, unit: milliliter (mL);
$m$ = Mass of the sample, unit: gram (g).

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