References
- J. H. Park, H. J. Jeon, Y. S. Oh, K. H. Park, C. S. Yoon(2018), "Understanding three- dimensional printing technology, evaluation, and control of hazardous exposure agents." J. Korean Society of Occupational and Environment Hygiene, 28(3):241-256.
- American Society for Testing and Materials (ASTM)(2012), "International. Subcommittee F42. 91 on Terminology." Standard terminology for additive manufacturing technologies.
- A. B. Stefaniak, A. R. Johnson, S. D. Preez, D. R. Hammond, J. R. Wells, J. E. Ham, R. F. LeBouf, K. W. Menchaca, S. B. Martin, M. G. Duling, L. N. Bowers, A. K. Knepp, F. C. Su, D. J. Beer, J. L. Plessis(2019), "Evaluation of emissions and exposures at workplaces using desktop 3-dimensional printers." J. Chemical Health & Safety, March/April:19-30.
- A. B. Stefaniak, S. D. Preez, J. L. Plessis(2021), "Additive manufacturing for occupational hygiene: A comprehensive review of processes, emissions, & exposures." J. Toxicol Environ Health B Crit Rev., 1-50.
- H. P. N. Nagarajan, S. Panicker, H. Mokhtarian, E. Coatanea, K. R. Haapala(2020), "Improving worker health and safety in wire arc additive manufacturing: A graph-based approach." Procedia CIRP, 90:461-466. https://doi.org/10.1016/j.procir.2020.01.116
- J. I. Arrizubieta, O. Ukar, M. Ostolaza, A. Mugica (2020), "Study of the environmental implications of using metal powder in additive manufacturing and its handling." Metals, 10:261.
- G. A. Roth, C. L. Geraci, A. Stefaniak, V. Murashov, J. Howard(2019), "Potential occupational hazards of additive manufacturing." J Occup Env Hyg, 16(5):321-328. https://doi.org/10.1080/15459624.2019.1591627
- M. Sousa, P. Arezes, F. Silva(2019), "Nanomaterials exposure as an occupational risk in metal additive manufacturing." J Physics: Conf. Series, 1323:012013.
- R. Chen, H. Yin, I. S. Cole, S. Shen, X. Zhou, Y. Wang, S. Tang(2020), "Exposure, assessment and health hazards of particulate matter in metal additive manufacturing: A review." Chemosphere, 259:127452.
- F. L. Filon, M. Mauro, G. Adami, M. Bovenzi, M. Crosera(2015), "Nanoparticles skin absorption: New aspects for a safety profile evaluation." Regulatory Toxicology and Pharmacology, 72(2):310-322. https://doi.org/10.1016/j.yrtph.2015.05.005
- A. A. Taylor, E. L. Freeman, M. J. C. Ploeg(2021), "Regulatory developments and their impacts to the nano-industry: A case study for nano-additives in 3D printing." Ecotoxicology and Environmental Safety, 207:111458.
- Ministry of Science and ICT(2017a), Three-dimensional printing industry promotion act.
- Ministry of Science and ICT(2019), Enforcement decree of the three- dimensional printing industry promotion act.
- Ministry of Science and ICT(2017b), Implementing rules of the three- dimensional printing industry promotion act.
- Human Resources Development Service of Korea, Available from: http://q-net.or.kr/man001.do?&gSite=Q&gld
- Private Qualifications Information, Available from: http://pgi.or.kr/indexMain.do
- Ministry of Science and ICT, National IT Industry Promotion Agency(2016-2021), Survey on 3D printing industry.
- Wohlers Associates(2018), Wohlers report 3D printing and additive manufacturing state of the industry Annual worldwide progress report.
- Wohlers Associates(2020), Wohlers report 3D printing and additive manufacturing global state of the industry.
- M. N. Azzougagh, F. X. Keller, E. Cabrol, M. Cici J. Pourchez(2021), "Occupational exposure during metal additive manufacturing: A case study of laser powder bed fusion of aluminum alloy." J Occup Env Hyg, 74:1-14. https://doi.org/10.1080/15459624.2021.1909055
- E. Alberts, M. Ballentine, E. Barnes, A. Kennedy(2021), "Impact of metal additives on particle emission profiles from a fused filament fabrication 3D printer." Atmospheric Environment, 244:1-10. https://doi.org/10.1016/j.atmosenv.2020.117956
- A. Noskov, T. K. Ervik, I. Tsivilskiy, A. Gilmutdinov, Y. Thomassen(2020), "Characterization of ultrafine particles emitted during laser-based additive manufacturing of metal parts." Scientific Reports, 10:20989.
- A. C. O. Jensen, H. Harboe, A. Brostrom, K. A. Jensen, A. S. Fonseca(2020), "Nanoparticle exposure and workplace measurements during processes related to 3D printing of a metal object." Frontiers in Public Health, 8:608718.
- S. Bau, D. Rousset, R. Payet, F. X. Keller(2019), "Characterizing particle emissions from a direct energy deposition additive manufacturing process and associated occupational exposure to airborne particles." J Occup Env Hyg, 17:59-72. https://doi.org/10.1080/15459624.2019.1696969
- S. A. Ljunggren, H. Karlsson, B. Stahlbom, B. Krapi, L. Fornander, L. E. Karlsson, B. Bergstrom, E. Nordenberg, T. K. Ervik, P. Graff(2019), "Biomonitoring of metal exposure during additive manufacturing(3D printing)." Safety and Health at Work, 10:518-526. https://doi.org/10.1016/j.shaw.2019.07.006
- S. A. Ljunggren, L. J. Ward, P. Graff, A. Persson, M. L. Lind, H. Karlsson(2021), "Metal additive manufacturing and possible clinical markers for the monitoring of exposure-related health effects." Plos One, 16(3):e0218601.
- Ministry of Science and ICT(2022), Safety usage guideline for 3D printer. Available from: http://msit.go.kr/bbs/view.do?sCode=user&bbsSeqNo=96&nttSeqNo=3179581