Analysis of metal vapour generation by laser ablation

Farjad, Shervin.

January 2007

Thesis (M.Eng.)--University of Wollongong, 2007. / Typescript. Includes bibliographical references: leaf 94-98.

Exposure of welders to manganese in welding fumes / Miriska Ferreira

Ferreira, Miriska

January 2012

Aims and objectives: The general aim of this study was to determine the personal respiratory exposure and biological monitoring of manganese (Mn) present in welding fumes as well as its neurological influence on welders. The objectives of this study were: (i) to assess the respiratory exposure of welders to Mn present in welding fumes; (ii) to assess the biological Mn load of welders via the use of nail clippings; (iii) to establish possible correlations between respiratory exposure to Mn and its presence in nail clippings, and (iv) to determine the possible difference in finger dexterity and coordination between Mn exposed welders and a control group. Methods: A gravimetrical method was used to determine the respiratory exposure of welders. A cassette containing a 0.8-μm, cellulose ester membrane filter, attached to the side of a welding helmet provided, was connected via a stainless steel fitting to the inside (respiratory zone) of the helmet. Chemical analysis (metal content) of the welding fumes was done according to the NIOSH 7300 method, using Inductively Coupled Argon Plasma, Atomic Emission Spectroscopy (ICP-AES). Nail clippings were collected at the beginning and end of the study to determine the Mn level in the nails in both welders as well as paired controls. The nails were deposited into small, plastic vials and also analysed according to the NIOSH 7300 method. A Perdue pegboard and mirror drawing test was also conducted to determine the influence of Mn exposure on finger dexterity and hand-eye coordination of welders. Results: Mn exposure in the welding fumes did not exceed the occupational exposure limit – recommended limit (OEL-RL) (1 mg/m3) of the Regulations for Hazardous Chemical Substances (RHCS), although two of these exposures exceeded the action level (0.5 mg/m3). No statistical significant correlations were found between the Mn respiratory exposure and the Mn found in the nails of the welders. Mn in the nails of exposed welders was statistical significantly higher (p = 0.003) than that of controls. The only statistical significant differences found in the motor function tests between the controls and welders were the test which was done by using their non-dominant hand in the beginning of the study (p = 0.016) and when the non-dominant hand values were pooled (p = 0.012). The usage of both hands simultaneously showed results that leaned toward statistical significant decrease of the welders compared to the control subjects (p = 0.090). In all these cases the controls inserted more pins than the welders. Only one moderately positive correlation (r = 0.612; p = 0.02) was found between Mn in the welding fumes and the number of errors made in the mirror drawing coordination test done by the welders. Discussion and Conclusions: The Mn in the nails of the control group was significantly lower than the Mn in the nails of the welders. This indicates that Mn respiratory exposure may influence Mn body burden although no correlation between Mn in welding fumes and Mn in nails were found. Nail Mn may serve as a biomarker to determine Mn body burden. Only the use of the non-dominant hand of the control subjects compared to the welders showed a significant decrease in finger dexterity of the welders. The moderately positive association between the Mn in the welding fumes and the number of errors made in the mirror drawing coordination test done by the welders indicates that with an increase in Mn in welding fumes, a decrease in hand-eye coordination will occur. It can be concluded that welders’ finger dexterity and hand-eye coordination may be influenced by the exposure to Mn in the welding fumes. / Thesis (MSc (Occupational Hygiene))--North-West University, Potchefstroom Campus, 2013

Manganese

Welding fumes

Nail clippings

Dexterity

Coordination

Exposure of welders to manganese in welding fumes / Miriska Ferreira

Ferreira, Miriska

January 2012

Aims and objectives: The general aim of this study was to determine the personal respiratory exposure and biological monitoring of manganese (Mn) present in welding fumes as well as its neurological influence on welders. The objectives of this study were: (i) to assess the respiratory exposure of welders to Mn present in welding fumes; (ii) to assess the biological Mn load of welders via the use of nail clippings; (iii) to establish possible correlations between respiratory exposure to Mn and its presence in nail clippings, and (iv) to determine the possible difference in finger dexterity and coordination between Mn exposed welders and a control group. Methods: A gravimetrical method was used to determine the respiratory exposure of welders. A cassette containing a 0.8-μm, cellulose ester membrane filter, attached to the side of a welding helmet provided, was connected via a stainless steel fitting to the inside (respiratory zone) of the helmet. Chemical analysis (metal content) of the welding fumes was done according to the NIOSH 7300 method, using Inductively Coupled Argon Plasma, Atomic Emission Spectroscopy (ICP-AES). Nail clippings were collected at the beginning and end of the study to determine the Mn level in the nails in both welders as well as paired controls. The nails were deposited into small, plastic vials and also analysed according to the NIOSH 7300 method. A Perdue pegboard and mirror drawing test was also conducted to determine the influence of Mn exposure on finger dexterity and hand-eye coordination of welders. Results: Mn exposure in the welding fumes did not exceed the occupational exposure limit – recommended limit (OEL-RL) (1 mg/m3) of the Regulations for Hazardous Chemical Substances (RHCS), although two of these exposures exceeded the action level (0.5 mg/m3). No statistical significant correlations were found between the Mn respiratory exposure and the Mn found in the nails of the welders. Mn in the nails of exposed welders was statistical significantly higher (p = 0.003) than that of controls. The only statistical significant differences found in the motor function tests between the controls and welders were the test which was done by using their non-dominant hand in the beginning of the study (p = 0.016) and when the non-dominant hand values were pooled (p = 0.012). The usage of both hands simultaneously showed results that leaned toward statistical significant decrease of the welders compared to the control subjects (p = 0.090). In all these cases the controls inserted more pins than the welders. Only one moderately positive correlation (r = 0.612; p = 0.02) was found between Mn in the welding fumes and the number of errors made in the mirror drawing coordination test done by the welders. Discussion and Conclusions: The Mn in the nails of the control group was significantly lower than the Mn in the nails of the welders. This indicates that Mn respiratory exposure may influence Mn body burden although no correlation between Mn in welding fumes and Mn in nails were found. Nail Mn may serve as a biomarker to determine Mn body burden. Only the use of the non-dominant hand of the control subjects compared to the welders showed a significant decrease in finger dexterity of the welders. The moderately positive association between the Mn in the welding fumes and the number of errors made in the mirror drawing coordination test done by the welders indicates that with an increase in Mn in welding fumes, a decrease in hand-eye coordination will occur. It can be concluded that welders’ finger dexterity and hand-eye coordination may be influenced by the exposure to Mn in the welding fumes. / Thesis (MSc (Occupational Hygiene))--North-West University, Potchefstroom Campus, 2013

Manganese

Welding fumes

Nail clippings

Dexterity

Coordination

Welding fume plume dispersion

Slater, Geoffrey Reginald.

January 2004

Thesis (Ph.D.)--University of Wollongong, 2004. / Typescript. Includes bibliographical references: leaf 227-237.

Heat shock protein 70 as an indicator of toxic heavy metal exposure and oxidative stress in the serum of asymptomatic shipyard welders

Han, Sung Gu.

January 1900

Thesis (Ph. D.)--West Virginia University, 2005. / Title from document title page. Document formatted into pages; contains ix, 148 p. : ill. (some col.). Vita. Includes abstract. Includes bibliographical reference.

Avaliação da exposição profissional a fumos metálicos em operações de solda / Occupational exposure assessment to metal fumes in welding operations

Colacioppo, Sergio

10 April 1984

Foi realizada amostragem de fumos metálicos na zona respiratória de quatro grupos de soldadores e em um grupo de prensistas não expostos a fumos metálicos. As concentrações de metais obtidas foram comparadas com os limites de tolerância propostos pela American Conference of Governmental Industrial Hygienists - ACGIH - e adaptados à nossa jornada de trabalho. As concentrações encontradas estão próximas aos limites de tolerância e é enfatizada e discutida a dificuldade de decidir se estão acima ou abaixo do limite. O nível de exposição é comparado com os níveis de metais no sangue e urina encontrados abaixo dos limites de tolerância biológica. É evidenciada a necessidade de amostrar o ar dentro do elmo, próximo ao nariz do soldador e a impraticabilidade de um limite de tolerância gravimétrico, único, para a presente situação. / Metalic fumes was sampled from respiratory zone of four welders group and of one not exposed to welding fumes press operators group. The metal concentrations were compared with the threshold Limit Values proposed by the American Conference of Governmental Industrial Hygienists - ACGIH - and adapted to our working day shift. The concentrations are near the thresholds and the dificulty to decide that the values are above or below the standard is showed and discussed. The exposure levels are also compared with blood and urinary metal levels that were found below the biologic to lerance limits. The necessity of sampling the air from a position the nearest possible to the welder´s nose, and the impracticability of the use of a unic gravimetric standard for the present situation are showed.

Exposição Ocupacional a Fumos de Solda

Fumos de Solda

Fumos Metálicos

Metal Fumes

Occupational Exposure to Welding Fumes

Smoke Welding

Avaliação da exposição profissional a fumos metálicos em operações de solda / Occupational exposure assessment to metal fumes in welding operations

Sergio Colacioppo

10 April 1984

Foi realizada amostragem de fumos metálicos na zona respiratória de quatro grupos de soldadores e em um grupo de prensistas não expostos a fumos metálicos. As concentrações de metais obtidas foram comparadas com os limites de tolerância propostos pela American Conference of Governmental Industrial Hygienists - ACGIH - e adaptados à nossa jornada de trabalho. As concentrações encontradas estão próximas aos limites de tolerância e é enfatizada e discutida a dificuldade de decidir se estão acima ou abaixo do limite. O nível de exposição é comparado com os níveis de metais no sangue e urina encontrados abaixo dos limites de tolerância biológica. É evidenciada a necessidade de amostrar o ar dentro do elmo, próximo ao nariz do soldador e a impraticabilidade de um limite de tolerância gravimétrico, único, para a presente situação. / Metalic fumes was sampled from respiratory zone of four welders group and of one not exposed to welding fumes press operators group. The metal concentrations were compared with the threshold Limit Values proposed by the American Conference of Governmental Industrial Hygienists - ACGIH - and adapted to our working day shift. The concentrations are near the thresholds and the dificulty to decide that the values are above or below the standard is showed and discussed. The exposure levels are also compared with blood and urinary metal levels that were found below the biologic to lerance limits. The necessity of sampling the air from a position the nearest possible to the welder´s nose, and the impracticability of the use of a unic gravimetric standard for the present situation are showed.

Exposição Ocupacional a Fumos de Solda

Fumos de Solda

Fumos Metálicos

Metal Fumes

Occupational Exposure to Welding Fumes

Smoke Welding

Development of a chromium-free consumable for joining stainless steel

Sowards, Jeffrey William,

January 2009

Thesis (Ph. D.)--Ohio State University, 2009. / Title from first page of PDF file. Includes bibliographical references (p. 229-238).