Abstract
This study is to evaluate exposure to harmful substances, such as particulate and heavy metals, by considering various factors, in anodizing and electroplating surface treatment process. Exposure evaluation studies on seven heavy metals (Cr, Zn, Ni, Pb, Cd, Al, and Ba) and total suspended particulates (TSP) were conducted. Heavy metals were analyzed using inductively coupled plasma mass spectrometry (ICP-MS). This study also checked the ventilation volume of the hood with a thermal anemometer. Measurement was conducted for 8 h and 8 days. The sample number, N, of the heavy metals and TSP was 107. Geometric mean (GM) of TSP during Cr plating process was 6.15(GSD, 3.35) mg/m3. GM of Cr during Cr plating was 1.86(GSD, 6.65) mg/m3. GM of TSP and heavy metals differences were statistically significant for each process and date variation. Average ventilation volume for all hoods ranged from 1.20 to 4.98 m3/s. In the hood 30 cm from bath, ventilation was 0.1 times lower. Increasing ventilation volume of the hood was the most influential factor, followed by machine operation time and workload. The high concentration was due to low ventilation suction flow. We can improve health to reduce exposure by resolving the fundamental cause of risk occurrence.
Highlights
This study is to evaluate exposure to harmful substances, such as particulate and heavy metals, by considering various factors, in anodizing and electroplating surface treatment process
The highest Geometric mean (GM) concentrations of the samples were for Cr plating (6.15(GSD, 3.35) mg/m3)
Differences in GM concentrations and daily variation were statistically significant among the anodizing and electroplating, post-treatment, pre-treatment, and other processes
Summary
This study is to evaluate exposure to harmful substances, such as particulate and heavy metals, by considering various factors, in anodizing and electroplating surface treatment process. Exposure evaluation studies on seven heavy metals (Cr, Zn, Ni, Pb, Cd, Al, and Ba) and total suspended particulates (TSP) were conducted. GM of TSP and heavy metals differences were statistically significant for each process and date variation. Increasing ventilation volume of the hood was the most influential factor, followed by machine operation time and workload. The most important exposed materials in the anodizing process are heavy metals. During the process of oxide film formation, abundant Al depending on the type of Al alloy are used, and exposure to other heavy metals is possible. Workers can be exposed to Hexavalent chromium (Cr (VI)) during the mixing of acid powders and carrying p roducts[7]
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