Repository logo
 
Profile Picture
Person

Albuquerque, Paula

Metadata only
9512-CE2D-AB39
0000-0002-7636-1756

Filters

2018 - 201932020 - 20212
Reset filters

Settings

Author: Miranda, R. × End date: 2021 ×

Search Results

Now showing 1 - 5 of 5
  • Evaluation of the amount of nanoparticles emitted in LASER additive manufacture/welding
    Publication . Gomes, J. F.; Miranda, R.; Oliveira, J. P.; Esteves, H. M.; Albuquerque, Paula
    Objectives: The objective of this study was the evaluation of the professional exposure to nanoparticles during tasks performed in workstations for production of metallic parts by laser welding additive manufacturing. Materials and methods: The study was developed in an installed additive manufacturing machine, having controlled temperature and humidity in an industrial unit where metal parts were being produced using stainless steel powders of granulometry of 10 to 35 μm. Results and discussion: Monitoring of airborne nanoparticles emission was made using adequate equipment, which showed considerable number of nanoparticles over the baseline, having the same composition as the steel powder used. Conclusion: It is concluded that the values of professional exposure to nanoparticles are high in these workstations and that the nanoparticles to which the workers are exposed are small in size (around 15 nm), thus having a strong capacity for alveolar penetration and, consequently, with a strong possibility of passing to the bloodstream, accumulating in the body.
    2019-02Journal article Restricted access Show more
  • Characterization of airborne emission of nanoparticles in the ceramic industry in Portugal
    Publication . Esteves, Hélder; Bordado, J.; Gomes, João; Miranda, R.; Albuquerque, Paula
    The objective of this study was to evaluate occupational exposure to nanoparticles during some tasks performed in different production processes of different ceramic industries in Portugal, to select the places of greatest occupational exposure through the analysis of the sampled data, to verify what is the pulmonary accumulation in these places, to identify the composition of the released nanoparticles, apply a Control Banding Tool and try to understand which companies require more risk control measures. The study was carried out in three different national ceramics production industries, one for sanitary ceramics production, another for porcelain crockery production and finally another for the production of ornamental crockery (red paste). It is concluded that occupational exposure values to nanoparticles are high in all cases and that nanoparticles are very small in size (11.5 to 15.4 nm). Existing risk control measures are insufficient and verified risk levels are high (Risk Level 3 and 4). The chemical composition of the analyzed nanoparticles is similar regardless of the typology of the ceramic production plant and their chemical composition as a percentage of certain materials has a direct influence on crystallinity.
    2021-08Book part Open access Show more
  • Exposição profissional a nanopartículas na fabricação de peças por soldadura a laser
    Publication . Esteves, H.; Gomes, João; Miranda, R.; Albuquerque, Paula
    A soldadura é o principal processo industrial utilizado para unir metais. Contudo, pode produzir fumos nocivos para a saúde dos trabalhadores e estima-se que, presentemente, 1-2% de trabalhadores (cerca de mais de 3 milhões), estejam sujeitos à ação de fumos e gases de soldadura. Os riscos inerentes aos processos de soldadura podem ser classificados como riscos decorrentes de agentes físicos e riscos relacionados com os componentes químicos. Por outro lado, as propriedades físicas e químicas dos fumos e os fatores individuais dos trabalhadores são fatores preponderantes na deposição de partículas inaladas. No entanto, ainda existem incertezas sobre o papel das partículas finas e ultrafinas (nanopartículas) em relação a outros poluentes atmosféricos que causam efeitos adversos para a saúde. A nível dos processos de soldadura, diversos autores demonstraram um aumento da incidência de doenças respiratórias de quatro vezes na incidência de asma entre soldadores dos Estados Unidos da América (EUA) em relação à população geral, e um aumento de duas vezes na capacidade de resposta das vias aéreas em soldadores versus não-soldadores no mesmo ambiente de trabalho. A exposição a fumos de soldadura no corpo humano pode despoletar o aparecimento de efeitos diferentes dependendo da composição desses fumos. Algumas dessas composições têm efeitos a curto prazo, tais como a designada “febre do soldador”. Contudo, os fumos de soldadura podem provocam efeitos a longo prazo nomeadamente: irritação da pele, irritação do trato respiratório, lesões nos rins e fígado, efeitos dermatológicos, doenças pulmonares do tipo asmáticas; efeitos crónicos que incluem cancro (nariz, laringe, pulmão). Estas situações de exposição profissional são de elevada complexidade e envolvem a componente inerente ao indivíduo, às condições de trabalho e à atividade desenvolvida sendo necessário aplicar uma abordagem integrada no processo de diagnóstico, avaliação e gestão do risco, adaptada a cada situação específica.
    2018-10Conference object Open access Show more
  • Evaluation of the amount of nanoparticles emitted in LASER additive manufacture/welding
    Publication . Gomes, João; Miranda, R.; P. Oliveira, J.; Esteves, Helder; Albuquerque, Paula
    Objectives: The objective of this study was the evaluation of the professional exposure to nanoparticles during tasks performed in workstations for production of metallic parts by laser welding additive manufacturing.Materials and methods: The study was developed in an installed additive manufacturing machine, having controlled temperature and humidity in an industrial unit where metal parts were being produced using stainless steel powders of granulometry of 10 to 35m.Results and discussion: Monitoring of airborne nanoparticles emission was made using adequate equipment, which showed considerable number of nanoparticles over the baseline, having the same composition as the steel powder used.Conclusion: It is concluded that the values of professional exposure to nanoparticles are high in these workstations and that the nanoparticles to which the workers are exposed are small in size (around 15nm), thus having a strong capacity for alveolar penetration and, consequently, with a strong possibility of passing to the bloodstream, accumulating in the body.
    2019-02-03Journal article Restricted access Show more
  • Characterization of airborne emission of nanoparticles in the ceramic industry in Portugal
    Publication . Esteves, H.; Bordado, J.; Gomes, João; Miranda, R.; Albuquerque, Paula
    The objective of this study was to evaluate occupational exposure to nanoparticles during some tasks performed in different production processes of different ceramic industries in Portugal, to select the places of greatest occupational exposure through the analysis of the sampled data, to verify what is the pulmonary accumulation in these places, to identify the composition of the released nanoparticles, apply a Control Banding Tool and try to understand which companies require more risk control measures. The study was carried out in three different national ceramics production industries, one for sanitary ceramics production, another for porcelain crockery production, and finally another for the production of ornamental crockery (red paste). It is concluded that occupational exposure values to nanoparticles are high in all cases and that nanoparticles are very small in size (11.5 to 15.4 nm). Existing risk control measures are insufficient and verified risk levels are high (Risk Level 3 and 4). The chemical composition of the analyzed nanoparticles is similar regardless of the typology of the ceramic production plant and their chemical composition as a percentage of certain materials has a direct influence on crystallinity.
    2021-08Book part Open access Show more