Abstract
The electroplating of brass alloy coatings onto a steel substrate was established using a lactic acid solution under diverse practical conditions. CuSO4.5H2O, ZnSO4.7H2O, CH3CHOHCOOH, and anhydrous Na2SO4 were used to make the deposition bath. The impact of bath components, deposition current, as well as temperature on the current efficiency (CE) and alloy microstructure was examined. The deposition of the alloy is of the normal type. The CE is good, and it improves when the [Zn2+] / [Cu2+] ratio in the bath increases. On the other hand, the efficacy declines when the current density, temperature, and lactic acid concentration increase. By elevating the applied current density, or raising the concentration of the Zn2+ ions in the tub, the amount of Zn metal in the plated alloy is increased. SEM, energy dispersion X-ray, and X-ray diffraction techniques are being used to investigate the coating’s morphology and crystal texture. The presence of copper and zinc metals in the deposit was confirmed by EDX analysis. The new bath’s deposits are well-crystalline and contain a Cu5 Zn8 phase. The bath’s throwing power and throwing index are determined, and it is found that the alkaline lactate tub has satisfactory throwing power and throwing index.
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