Abstract

The cleanroom environment has many potential sources of contamination, including: operators, equipment, structures, and any surface that can create particles via friction, heat, exhaust, outgassing, and static electricity charge. Operatives working in the cleanroom are the major source of particles. While cleanroom operators work, they emit millions of particles from every activity. Particles migrate up the cleanroom garment to the head and drop to the legs during cleanroom movements. Specialized textile fabrics have been used in cleanroom garments for many years. The need for this type of fabric has increased mainly due to the need to protect critical operations in cleanrooms as well as creating comfort for operators and other personnel. This study covers the general static wind-driven method, the Helmke Drum method and the dispersal chamber to measure particle penetration, shedding, and generation, in regards to the filtration efficiency of cleanroom fabrics and garments. Firstly, particle penetration is shown to increase with increasing face velocity and decreasing particle size below 1 μm. Secondly, that a recommended upper particle-size limit should be 5 µm. Using the Helmke drum test, the size distribution of particles released from the garment is shown to follow a power law distribution, with a slope of less than 1. Furthermore, the study introduces dynamic body box for testing fabrics as well as cleanroom garments. It is more practical and sensitive when compared to traditional methods and is based on a more concise technical approach. The life-time cycle performance of a typical cleanroom garment coverall is examined, particularly looking at the implications of pre-use steralization.

Highlights

  • The increasing cleanliness demands regarding the performance of modern cleanroom clothing systems

  • Materials The garment tested in this study is 98% polyester filament yarn þ2% conductive yarn

  • From the particle counter data (MetOne 237B: 710% accuracy, 0.3 mm (237B) at 0.1 CFM (2.83 LPM) flow rate, linked to a manifold with multichannel; Table 2), the filtration efficiency of the media was calculated for two size ranges: 0.1 μm and 45 μm

Read more

Summary

Data Article

Validation and application of the personnel factor for the garment used in cleanrooms Shih-Cheng Hu, Angus Shiue n. Article history: Received 7 December 2015 Accepted 9 December 2015 Available online 2 January 2016 abstract. Shiue / Data in Brief 6 (2016) 750–757 cleanroom garment coverall is examined, looking at the implications of pre-use steralization.

Value of the data
Findings
Warp Weft Warp Weft Warp Weft Warp

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.