Recently, significant investment has been made in the development and optimization of the machining processes to ensure higher productivity, lower processing costs, high precision, and quality of products. Researchers have already developed classic processes that employ cryogenic cooling, which can similarly optimize the process of machining with abrasive water jet (AWJ). We observed how supercooling impacted the stainless steel X5CrNi18-10 and aluminium alloy AlMg4.5Mn0.7 workpieces. The samples were cooled by liquid nitrogen to -198 °C and engraved with AWJ. The results were compared with the experiments with samples conducted at room temperature. We monitored the change in temperature during cooling and engraving. The change in the efficiency of the process was evaluated according to both the quantity of the eroded material, which was calculated as the difference in the mass of the sample before and after the processing, and the depth of the engraving.