Insights Into Emissions and Exposures From Use of Industrial-Scale Additive Manufacturing Machines

Stefaniak, A.B.; Johnson, A.R.; du Preez, S.; Hammond, D.R.; Wells, J.R.; Ham, J.E.; LeBouf, R.F.; Martin, S.B. Jr.; Duling, M.G.; Bowers, L.N.; Knepp, A.K.; de Beer, D.J.; du Plessis, J.L.

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자료유형: 학술저널

저자정보: Stefaniak, A.B. (National Institute for Occupational Safety and Health) Johnson, A.R. (National Institute for Occupational Safety and Health) du Preez, S. (North-West University, Occupational Hygiene and Health Research Initiative) Hammond, D.R. (National Institute for Occupational Safety and Health) Wells, J.R. (National Institute for Occupational Safety and Health) Ham, J.E. (National Institute for Occupational Safety and Health) LeBouf, R.F. (National Institute for Occupational Safety and Health) Martin, S.B. Jr. (National Institute for Occupational Safety and Health) Duling, M.G. (National Institute for Occupational Safety and Health) Bowers, L.N. (National Institute for Occupational Safety and Health) Knepp, A.K. (National Institute for Occupational Safety and Health) de Beer, D.J. (North-West University, Technology and Innovation Support Office) du Plessis, J.L. (North-West University, Occupational Hygiene and Health Research Initiative)

저널정보: 산업안전보건연구원 Safety and health at work : SH@W Safety and health at work : SH@W 제10권 제2호

발행연도: 2019.1

수록면: 229 - 236 (8page)

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Background: Emerging reports suggest the potential for adverse health effects from exposure to emissions from some additive manufacturing (AM) processes. There is a paucity of real-world data on emissions from AM machines in industrial workplaces and personal exposures among AM operators. Methods: Airborne particle and organic chemical emissions and personal exposures were characterized using real-time and time-integrated sampling techniques in four manufacturing facilities using industrial-scale material extrusion and material jetting AM processes. Results: Using a condensation nuclei counter, number-based particle emission rates (ERs) (number/min) from material extrusion AM machines ranged from $4.1{\times}10^{10}$ (Ultem filament) to $2.2{\times}10^{11}$ [acrylonitrile butadiene styrene and polycarbonate filaments). For these same machines, total volatile organic compound ERs (${\mu}g/min$) ranged from $1.9{\times}10^4$ (acrylonitrile butadiene styrene and polycarbonate) to $9.4{\times}10^4$ (Ultem). For the material jetting machines, the number-based particle ER was higher when the lid was open ($2.3{\times}10^{10}number/min$) than when the lid was closed ($1.5-5.5{\times}10^9number/min$); total volatile organic compound ERs were similar regardless of the lid position. Low levels of acetone, benzene, toluene, and m,p-xylene were common to both AM processes. Carbonyl compounds were detected; however, none were specifically attributed to the AM processes. Personal exposures to metals (aluminum and iron) and eight volatile organic compounds were all below National Institute for Occupational Safety and Health (NIOSH)-recommended exposure levels. Conclusion: Industrial-scale AM machines using thermoplastics and resins released particles and organic vapors into workplace air. More research is needed to understand factors influencing real-world industrial-scale AM process emissions and exposures.

#Additive manufacturing #Material extrusion #Material jetting #Ultrafine particles #Volatile organic compounds

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