Identyfikatory
Warianty tytułu
Jakość pracy podczas procesu spawania
Języki publikacji
Abstrakty
The article presents the exposure to noise and dusts occurring during the welding process. The results of the measurements of industrial dust and noise at the welder’s workplace in the period 2012-2014 are presented. Health problems generated during the process are presented. In particular, the attention is paid how to improve the quality of the work during the welding process. Proactively proposing actions that will improve the quality of the work during the welding process are described.
W artykule omówiono narażenia związane z hałasem i pyłem przemysłowym występujące podczas procesu spawania, a wpływające w istotny sposób na jakość pracy i zdrowie spawacza. W części doświadczalnej przedstawiono wyniki pomiarów pyłu przemysłowego oraz hałasu na stanowisku pracy spawacza w latach 2012-2014. Zaproponowano działania prewencyjnie, które poprawią jakość pracy podczas procesu spawania i ograniczą zagrożenia zdrowotne.
Wydawca
Czasopismo
Rocznik
Tom
Strony
117--127
Opis fizyczny
Bibliogr. 14 poz.
Twórcy
autor
- Silesian University of Technology. Faculty of Organization and Management. Institute of Protection Engineering Institute of Protection Engineering, ul. Roosevelta 26, 41-800 Zabrze, Poland
autor
- Silesian University of Technology. Faculty of Organization and Management. Institute of Protection Engineering Institute of Protection Engineering, ul. Roosevelta 26, 41-800 Zabrze, Poland
Bibliografia
- 1 J.M. Antonini. „Health effects of welding”. Crit. Reviews in Toxicology, vol. 33, 2003, p. 61-103.
- 2 D. Augustyńska, M. Pośniak. Harmful factors in the working environment. The limit values. Warsaw: CIOP-PIB, 2010.
- 3 BS EN ISO 9612: 2011 - Acoustics. Determination of occupational noise exposure. Technical Methods.
- 4 Canadian Centre for Occupational Health and Safety. Noise control in industry: A basic quide, 2013.
- 5 Committee on Hazardous Substances (AGS). Technical Rules for Hazardous Substances TRGS 528 – Welding work. German Federal Ministry of Labour and Social Affairs (BMAS) & Joint Ministerial Gazette (GMBl), 2009.
- 6 Commission Recommendation of 19 September 2003 concerning the European schedule of occupational diseases (Text with EEA relevance) (notified under document number C(2003) 3297), Official Journal, L 238, 09.2003, p. 0028 – 0034.
- 7 Z. Engel, W.M. Zawieska. Noise and vibration in work processes. Sources, assessment, threat. Warsaw: CIOP-PIB, 2010.
- 8 ISO 9612:2011 - Acoustics. Determination of occupational noise exposure and estymation of noise-induced hearing damage.
- 9 H. Kasprzyk. Methodology for determining the level of noise in the workplace in the examples. Gliwice: Silesian University of Technology, 2013.
- 10 D. Koradecka. Occupational Health and Safety. Warsaw: CIOP-PIB, 2008.
- 11 C.R. Lee, C.I. Yoo, J.H.Lee, S.K. Kang. „Nasal Septum Perforation of Welders”. Journal of Industrial Health, vol. 40, 2012, p. 286-289.
- 12 E. Ibfelt, J.P. Bonde, J. Hansen. „Exposure to metal welding fumes particles and risk for cardiovascular disease in Denmark: a prospective cohort study”. Occup. Environ. Med., vol. 67, 2010, p. 772-777.
- 13 V. Spiegel-Ciobanu. „BG Information 593 – Hazardous substances in welding and allied processes”. Vereinigung der Metall-Berufsgenossenschaften (ed.), H.Verlag GmbH, Köln, 2007.
- 14 T. Szymaczek. „Analysis and assessment of exposure to industrial noise and dust in selected workstations in the company Mostostal Zabrze S.A.”. Industrial Structures Engineering Thesis, 2015. [Unpublished].
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5e615374-c7bd-4899-b32d-50ca2f8ae0e4