Improving the accuracy of determining corrosion products in reinforced concrete structures by atomic emission spectrum analysis

To determine the composition of inhomogeneous samples using the method of laser-spark emission spectrometry, calibration dependences are used, which can have significant systematic errors that significantly affect the determination of the quantitative composition of elements. Sample inhomogeneity also causes inaccuracies in replicate measurements. To reduce errors, multi-signal calibration and internal standard methods are used, which can significantly improve accuracy when changing experimental conditions and eliminate the need to purchase ex-pensive standard samples.

1. . Pelevina N. G. Primeneniye metoda vnutrennego standarta dlya opredeleniya primesey v tsinke marochnom i katodnom metodom atomno-emissionnoy spektrometrii s induktivnosvyazannoy plazmoy [Application of interior standard method for impurities determination in branded and cathode zinc by atomic-emission spectrometry with inductive bounded plasma] // Zavodskaya laboratoriya. Diagnostika materialov. Industrial Laboratory. Diagnostics of Materials. 2006. Vol. 72, no. 8. P. 24–26. (In Russ.).

2. Grotti M., Magi E., Leardi R. Selection of Internal Standards in Inductively Coupled Plasma Atomic Emission Spectrometry by Principal Component Analysis / J. Anal. At. Spectrom. 2003. Vol. 18, no. 3. P. 274–281. DOI: 10.1039/b212653b. (In Engl.).

3. Pupyshev A. A. O vozmozhnosti snizheniya sistemati- cheskikh i sluchaynykh pogreshnostey atomno-emissionnogo spektral’nogo analiza s ispol’zovaniyem mnogolineychatoy graduirovki [On the possibility of reducing the systematic and random errors of atomic emission spectral analysis using multiline calibration] Zavodskaya laboratoriya. Diagnostika materialov. Industrial Laboratory. Diagnostics of Materials. 2017. Vol. 83, no. 1-2. P. 20–30. (In Russ.).

4. Moore G. L. Internal standardization in atomic-emission spectrometry using inductively coupled plasma. Report N M208. Mintek (Analytical Science Division): Council for mineral technology (South Africa), 1985. 24 p. (In Engl.).

5. Barnett W. B., Fassel V. A., Kniseley R. N. Theoretical principles of internal standardization in analytical emission spectroscopy // Spectrochim. Acta. Part B. 1968. Vol. 23. P. 643–664. (In Engl.).

6. Barnett W. B., Fassel V. A., Kniseley R. N. An experimental study of internal standardization in analytical emission spectroscopy // Spectrochim. Acta. Part B. 1970. Vol. 25. P. 139–161. (In Engl.).

7. Kucharkowski R., Jankova D., Herrmann E., John A. Contributions to accuracy improvement of simultaneous ICP atomic emission spectrometry using multi-line measurements of analyte and internal standard elements Applications for the analysis of permalloy // Fresenius J. Anal Chem. 1998. Vol. 361. P. 532–539. (In Engl.).

8. Pan F., Tyson J. F. Real and composite emission lines as internal standards in the determination of As, Se and Sb by inductively coupled plasma optical emission spectrometry // Journal of Analytical Atomic Spectrometry. 2007. Vol. 22. P. 377– 385. DOI: 10.1039/b613316a. (In Engl.).

9. Chanysheva T. A., Putmakov A. N., Shelpakova I. R. K voprosu o postroyenii graduirovochnykh grafikov v praktike atomno-emissionnogo spektral’nogo analiza [On the issue of constructing calibration curves in the practice of atomic emission spectral analysis] // Zavodskaya laboratoriya. Diagnostika materialov. Spetsial’nyy vypusk. Industrial Laboratory. Diagnostics of Materials. Special Issue. 2007. Vol. 73. P. 80–85. (In Russ.).

10. Zmitrevich A. G., Pupyshev A. A. Atomno-emissionnoye spektral’noye opredeleniye oksidov natriya i kaliya v poroshkakh mikrokremnezлma sposobom vduvaniya [Atomic emission spectral determination of sodium and potassium oxides in micrisilica powders using the injection method] // Analitika i kontrol’. Analytics and Control. 2012. Vol. 16, no. 1. P. 23–29. (In Russ.).

11. Zmitrevich A. G., Pupyshev A. A. Optimizatsiya graduirovochnykh zavisimostey pri atomno-emissionnom spektral’nom analize mnogokomponentnykh ferrosplavov sposobom vduvaniya v dugovoy razryad [Optimization of Calibration Dependencies in Atomic Emission Spectral Analysis of Multicomponent Ferroalloys by the Method of Injection into an Arc Discharge] // Problemy spektroskopii i spektrometrii. Problemy Spektroskopii i Spektrometrii. Ekaterinburg, 2004. Issue 16. P. 33–44. (In Russ.).

12. Kuznetsov A. A., Slepterev V. A., Peleznev A. V. Realizatsiya mobil’nykh graduirovochnykh kharakteristik priborov spektral’nogo analiza materialov s ispol’zovaniyem virtual’nykh etalonov [Implementation of mobile calibration characteristics of devices for spectral analysis of materials using virtual standards]. Omskiy nauchnyy vestnik. Omsk Scientific Bulletin. 2013. No. 3 (125). P. 241–246. (In Russ.).