Evaluation of operational parameters role on the emission of fumes

Electric arc welding is a routine operation in the construction of metallic structures, but the fumes generated during the welding process can threaten the health of welders. Fumes are undesirable products of the majority of welding operations and may have various detrimental effects on health. The...

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Bibliographic Details
Published inIndustrial Health Vol. 56; no. 3; pp. 198 - 206
Main Authors SAJEDIFAR, Javad, KOKABI, Amir Hossein, DEHGHAN, Somayeh Farhang, MEHRI, Ahmad, AZAM, Kamal, GOLBABAEI, Farideh
Format Journal Article
LanguageEnglish
Published Japan National Institute of Occupational Safety and Health 01.01.2018
National Institute of Occupational Safety and Health, Japan
National Institute of Occupational Safety and Health, Japan (JNIOSH)
Subjects
Arc welding
Breathing
Current intensity
Emission analysis
Emissions (Pollution)
Fumes
Health aspects
Health risks
Heat input
Mass concentration
Medical research
Metal workers
Number concentration
Occupational exposure
Occupational health
Organs
Original
Quality assessment
Shielded metal arc welding
Threshold limit values (Industrial toxicology)
Travel speed
Vapors
Welding
Welding machines
Welding parameters
Workplaces
Iran
Heat input
Number concentration
Welding
Current intensity
Travel speed
Mass concentration
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Summary:Electric arc welding is a routine operation in the construction of metallic structures, but the fumes generated during the welding process can threaten the health of welders. Fumes are undesirable products of the majority of welding operations and may have various detrimental effects on health. The purpose of this study was to investigate the effect of operational parameters of the shielded metal arc welding (SMAW) process on the emission of fumes. A dust monitor was used to measure the number and mass concentration of fumes generated by SMAW. Measurements were made at the distances of 23 cm (hood inlet) and 41 cm (welder’s breathing zone) from the weld point, with different values assigned to three operational parameters, namely current intensity, travel speed, and heat input (HI). Number concentration (NC) decreased with the increase in particle size. The highest mass concentrations (MC) were observed for MC1 (0.35–0.5 μm) and MC8 (Larger than 6.5 μm). For reducing exposures to fumes, welders are recommended to use the lowest voltage and amperage and the highest travel speed to the extent that does not compromise in the quality of welds. For assessment of exposure to airborne particles in industrial workplaces and specially in welding operations, it is thought that taking, solely, mass concentration in to consideration and lack of attention to number concentration would not be able to reflect accurate assessment of the adverse effects of particles on the body organs.
ISSN:0019-8366
1880-8026
DOI:10.2486/indhealth.2017-0155