Most industries use iron pickling (black oxidation) for rust removal or rust prevention. In this study, Gallic acid was used instead of hydrochloric acid for pickling and rust prevention experiments. Iron in the acidic environment will be oxidized into divalent iron ions, while reducing the hydrogen ions in the solution and releasing hydrogen, in which the iron ions will react with gallic acid, resulting in the formation of black iron oxide on the surface of the metal. The protective layer can prevent further oxidative rusting, and due to the complex reaction mechanism of divalent iron ions and gallic acid, the types of complexes generated are also numerous. Therefore, change to hydrogen detection to simplify this experiment.Use a self-developed milli-whistle detector coupled with a gas chromatograph and a self-assembled autosampler was used to perform simultaneous and simultaneous hydrogen detection. The LabVIEW program controls the automatic sample injection process and uses the NI-4461 sound card for audio and data analysis. After calculation, it can be used to calculate the hydrogen generation rate. Finally, the SEM is used to investigate the degree of difference in the immersion water oxidation test after the pickling process. We hope to get better rust treatment method to prolong the service life of steel black.