PL32012B1 - A method of research using the spectral analysis of bodies in the state of fine fragmentation, especially liquid bodies - Google Patents

Description

For testing by spectral analysis of non-metals and compounds, as well as of metals, if they are in a finely divided state (as powder or chips), it is generally required to place the test substances on the body. If the test is carried out with an arc spectrum, or a spark spectrum, then the carrier also serves as the electrode. Until now, optically pure carbon has been used as the carrier, which, due to its good suction capacity, can be used in particular for liquid analysis. Carbon, however, has the disadvantage that it produces fringes in the wavelength range of 3500-3900 A, which cover the lines of the test substance possibly present in this range. In addition, although the carbon has only minor impurities, they often appear in the nests in a highly aggregated state and then they can significantly falsify the analysis result. Finally, working with carbon as a carrier is also costly, as coal can generally only be used once, at most twice, and the production of the most dazzling carbon requires a troublesome cleaning process. Due to the spectral analysis of substances in the finely divided state, especially liquids, the purest light metals are used, on the surfaces of which the test substances are to be deposited an oxide layer is deposited in a known manner. These oxide layers, produced, for example, by dipping or anodizing, have a suction capacity and are therefore suitable for the retention of the test material, especially in the form of solutions. Since the spectrum of oxygen does not have any interfering lines in the spectrum that fall within the calculation, only a small number of lines in the spectrum of the light metals themselves should be taken into account when working with carriers according to the invention. light, with an extremely high and uniform degree of cleanliness iip. by means of an electrolytic three-layer deposition process or by distillation. It is also possible to use the light metals several times as carrier substances by removing the oxide layer containing the substances, examined for the spectrum, for example by turning and then depositing a new oxide layer on these light metals. In aluminum with a degree of purity of 99.999, which has been produced by refining primary aluminum in the three-layer process, only traces of magnesium can be detected by spectral analysis. The degree of purity is therefore much higher than that of the purest coal. In order to be tested, an oxide layer is produced from such the purest aluminum by means of an anodic treatment in sulfuric acid by means of a spectral analysis of a nickel salt solution on an electrode, and a nickel solution is applied to this layer and dried. Nibble can then be found at a concentration of 1.108. The entire spectral range of 3600-3900 A is free from specimens, so that the Cr and Fe lines can also be clearly distinguished, while these elements could not be detected in the same spectral range when using carbon as a carrier. The same results are obtained if instead of the purest aluminum (the purest magnesium will be used, obtained by distillation, on the surface of which an oxide film was formed by anodic oxidation. PL

Claims (1)

1. Patent claim. The method of testing by means of spectral analysis of bodies in the state of fine fragmentation, in particular of liquid bodies, characterized in that the purest light metals are used as the carrier, on the surface of which the test substances to be deposited are deposited in a known manner oxide. I. G, Farbenindustrie Aktiengesellschaft Deputy: engineer J. Wyganowski patent attorney 40243 PL