Safety and Health at Work Vol. 10 Issue 4 2019
Biomonitoring of Metal Exposure During Additive Manufacturing (3D Printing) (Original Article)
Dublin Core
Title
Safety and Health at Work Vol. 10 Issue 4 2019
Biomonitoring of Metal Exposure During Additive Manufacturing (3D Printing) (Original Article)
Biomonitoring of Metal Exposure During Additive Manufacturing (3D Printing) (Original Article)
Subject
3D-printing, Additive manufacturing, Metals, Occupational exposure, Particle exposure
Description
Background: Additive manufacturing (AM) is a rapidly expanding new technology involving challenges to occupational health. Here, metal exposure in an AM facility with large-scale metallic component production was investigated during two consecutive years with preventive actions in between.
Methods: Gravimetric analyzes measured airborne particle concentrations, and filters were analyzed for metal content. In addition, concentrations of airborne particles <300 nm were investigated. Particles from recycled powder were characterized. Biomonitoring of urine and dermal contamination among AM operators, office personnel, and welders was performed.
Results: Total and inhalable dust levels were almost all below occupational exposure limits, but
inductively coupled plasma mass spectrometry showed that AM operators had a significant increase in cobalt exposure compared with welders. Airborne particle concentrations (<300 nm) showed transient peaks in the AM facility but were lower than those of the welding facility. Particle characterization of recycled powder showed fragmentation and condensates enriched in volatile metals. Biomonitoring showed a nonsignificant increase in the level of metals in urine in AM operators. Dermal cobalt and a trend for increasing urine metals during Workweek Year 1, but not in Year 2, indicated reduced exposure after preventive actions.
Conclusion: Gravimetric analyses showed low total and inhalable dust exposure in AM operators.
However, transient emission of smaller particles constitutes exposure risks. Preventive actions imple
mented by the company reduced the workers’ metal exposure despite unchanged emissions of particles,
indicating a need for careful design and regulation of the AM environments. It also emphasizes the need for relevant exposure markers and biomonitoring of health risks.
Methods: Gravimetric analyzes measured airborne particle concentrations, and filters were analyzed for metal content. In addition, concentrations of airborne particles <300 nm were investigated. Particles from recycled powder were characterized. Biomonitoring of urine and dermal contamination among AM operators, office personnel, and welders was performed.
Results: Total and inhalable dust levels were almost all below occupational exposure limits, but
inductively coupled plasma mass spectrometry showed that AM operators had a significant increase in cobalt exposure compared with welders. Airborne particle concentrations (<300 nm) showed transient peaks in the AM facility but were lower than those of the welding facility. Particle characterization of recycled powder showed fragmentation and condensates enriched in volatile metals. Biomonitoring showed a nonsignificant increase in the level of metals in urine in AM operators. Dermal cobalt and a trend for increasing urine metals during Workweek Year 1, but not in Year 2, indicated reduced exposure after preventive actions.
Conclusion: Gravimetric analyses showed low total and inhalable dust exposure in AM operators.
However, transient emission of smaller particles constitutes exposure risks. Preventive actions imple
mented by the company reduced the workers’ metal exposure despite unchanged emissions of particles,
indicating a need for careful design and regulation of the AM environments. It also emphasizes the need for relevant exposure markers and biomonitoring of health risks.
Creator
Stefan A. Ljunggren, Helen Karlsson, Bengt Ståhlbom, Blerim Krapi, Louise Fornander, Lovisa E. Karlsson, Bernt Bergström, Eva Nordenberg, Torunn K. Ervik, Pål Graff
Publisher
Elsevier Korea LLC
Date
December 2019
Contributor
Sri Wahyuni
Format
PDF
Language
English
Type
Text
Coverage
Safety and Health at Work Vol. 10 Issue 4 2019
Files
Citation
Stefan A. Ljunggren, Helen Karlsson, Bengt Ståhlbom, Blerim Krapi, Louise Fornander, Lovisa E. Karlsson, Bernt Bergström, Eva Nordenberg, Torunn K. Ervik, Pål Graff , “Safety and Health at Work Vol. 10 Issue 4 2019
Biomonitoring of Metal Exposure During Additive Manufacturing (3D Printing) (Original Article),” Repository Horizon University Indonesia, accessed February 5, 2025, https://repository.horizon.ac.id/items/show/1952.
Biomonitoring of Metal Exposure During Additive Manufacturing (3D Printing) (Original Article),” Repository Horizon University Indonesia, accessed February 5, 2025, https://repository.horizon.ac.id/items/show/1952.