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KMID : 0895420010110030229
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Journal of Korean Society of Occupational and Enviromental Hygiene
2001 Volume.11 No. 3 p.229 ~ p.234
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The Non-Destructive Determination of Heavy Metals in Welding Fume by EDXRF
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¹Ú½ÂÇö/Park, Seunghyun
Á¤Áö¿¬/À¯ÀåÁø/À̳ª·ç/À¯ÀÏÀç/¼Û°æ¼®/ÀÌ¿ëÇÐ/Jeong, Jee Yeon/Ryoo, Jang Jin/Lee, Naroo/Yu, Il Je/Song, Kyung Seuk/Lee, Yong Hag
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Abstract
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The EDXRF(energy Dispersive X-ray Fluorescence Spec=trometer) technique was applied to the determination of heavy metals in welding fume. The EDXRF method designed in this study was a non-destructive analysis method. Samples were analyzed directly by EDXRF without any pre-treatment such as digestion and dilution. The samples used to evaluate such as digestion and dilution. the samples used to evaluate this method were laboratory samples exposed in a chamber connected with a welding fume generator. The samples were first analyzed using a non-destructive EDXRF method. The samples subsequently were analyzed using AAS method to verify accuracy of the EDXRF method. The purpose of this study was to evaluate the possibility of the non-destructive analysis of heavy metals in welding fume by EDXRF. The results of this study were as follow:
1. When the samples were collected under the open-face sampling condition, a surface distribution of welding fume particles on sample filters was uniform, which made non-destructive analysis possible.
2. The method was statistically evaluated according to the NIOSH(National Institute for Occupational Safety and Health) and HSE(Health and Safety Executive) Method.
3. The overall precision of the EDXRF method was calculated at 3.45£¥ for Cr, 2.57£¥ for Fe and 3.78£¥ for Mn as relative standard deviation(RSD), respectively. The limits of detection were calculated at 0.46 §¶/sample for Cr, 0.20 §¶/sample for Fe and 1.14 §¶/sample for Mn, respectively.
4. A comparison between the results of Cr, Fe, Mn analyzed by EDXRF and AAS was made in order to assess the accuracy of EDXRF method. The correlation coefficient between the results of EDXRF and AAS was 0.9985 for cr, 0,995 for Fe and 0.9982 for Mn, respectively. The overall uncertainty was determined to be ¡¾12.31£¥ , 8.64£¥ and 11.91£¥ for Cr, Fe and Mn, respectively.
In conclusion, this study showed that Cr, Fe, Mn in welding fume were successfully analyzed by the EDXRF without any sample pre-treatment such as digestion and dilution and a good correlation between the results of EDXRF and AAS was obtained. It was thus possible to use the EDXRF technique as an analysis method of working environment samples. The EDXRF method was an efficient method in a non-destructive analysis of heavy metals in welding fume.
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