Abstract
This study presents a new method for imaging and counting the concentration of asbestos fibers. This approach combines the principle of differential interference contrast (DIC) microscopy for imaging fibers with an imaging program to automatically assess their concentration. Asbestos is typically detected by optical microscopy or electron microscopy methods. While optical microscopy techniques (such as phase contrast microscopy and polarized light microscopy) are fast and inexpensive, they cannot ensure a thorough examination due to their low resolutions. In contrast, electron microscopy methods (such as transmission electron microscopy and scanning electron microscopy) provide high resolutions images, but are expensive and the related technology is not widely available.This work thus proposes the DIC method for detecting asbestos fibers, as it can overcome many of the disadvantages of existing methods. It also has good potential for use in portable measuring devices, which can detect asbestos right at the location of possible exposure.
Highlights
Asbestos is used in a wide range of applications due to its desirable physical properties such as sound absorption, average tensile strength, and resistance to various harsh environmental conditions including fire, heat, electrical and chemical damage (Michaels and Chissick, 1979)
differential interference contrast (DIC) uses polarization change according to the path difference between two orthogonally polarized lights while phase contrast microscopy (PCM) uses diffraction method
We suggested the method of differential interference contrast (DIC) microscopy for detecting and counting airborne asbestos fibers as an alternative to already existing methods
Summary
Asbestos is used in a wide range of applications due to its desirable physical properties such as sound absorption, average tensile strength, and resistance to various harsh environmental conditions including fire, heat, electrical and chemical damage (Michaels and Chissick, 1979). It causes serious health problems to human beings. The influence of asbestos exposure on human health is one of the most widely studied subjects of modern epidemiology (Becklake, 1982; Doll and Peto, 1985; Higgson et al, 1992). Asbestosis is one of typical diseases generated by permanent asbestos exposure. Its severity depends on the amount of asbestos to which people are exposed and length of exposure time since their first exposure. Lung cancer caused by asbestos inhalation generally results from long-term high
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