ELEKTROSTATİK BOŞALIM KORUYUCU GİYSİ: HİBRİT İPLİKLE ÖRÜLMÜŞ KUMAŞ İÇİN ELDE EDİLMİŞ OLAN SONUÇLAR

Year 2015, Volume: 25 Issue: 3, 220 - 228, 01.12.2015

Sultan Can Asım Egemen Yılmaz Codriu Doncıu Marinel Temneanu Andrei Sebastian Ardeleanu

Abstract

Bu makalede, elektrostatik yük boşalımı koruyucu giysilerin performans analizine yönelik bir çalışma sunulmaktadır. Elektrostatik yük boşalımının sebepleri, bir üretim holünde gerçekleşebilecek olası senaryolar ve elektrostatik yük boşalımı koruyucu giysilere ait gereksinimlerden söz edilmektedir. Bu gereksinimleri sağlayan, dış katman yalıtkan ve iç katman iletken olan iki katmanlı iplik ile tasarlanmış bir örgü topolojisi önerilmektedir. Söz konusu yapının performansı maliyet, performans etkinliği ve ağırlık gibi farklı ölçütler ele alınarak değerlendirilmektedir

Keywords

elektrostatik boşalım (ESD), ESD önlemleri, ESD koruyucu giysiler, ESD koruyucu tekstil

ELECTROSTATIC DISCHARGE PROTECTIVE GARMENT: RESULTS OBTAINED FOR KNITTED FABRICS WITH HYBRID YARNS

Abstract

Abstract: This paper presents a study, which is conducted to analyze the performance of electrostatic discharge (ESD) garments. The reasons of ESD, the possible scenarios that may occur in manufacturing hall and the requirements of the ESD garments are mentioned. A knitted structure consists of a double layer hybrid yarn, which consists of a dielectric layer at the outer layer and a conductor at the inner layer, is presented. The performance of the proposed structure is evaluated in terms of various criteria such as the cost, efficiency and weight

Keywords

electrostatic discharge (ESD), ESD precautions, ESD protective garments, ESD protective textile

References

• 1. Lüttgens G. and Wilson N., 1997, Electrostatic Hazards, Butterworth-Heinemann: Oxford, 1st Edition.
• 2. Mardiguian M., 2009, Electrostatic Discharge - Understand, Simulate, and Fix ESD Problems, IEEE Press: Piscataway, 3rd Edition.
• 3. Billon, H., "The Protection of Electro-explosive Devices (EEDs) and Electronics from Electrostatic Discharge (ESD) Hazards", Department of Defence Technical Report (DSTO-TR-0100), 2000.
• 4. Gonzalez, J. A., Rizvi, S. A., Crown, E. M., ve Smy, P. R. "A Laboratory Protocol to Assess the Electrostatic Propensity of Protective-clothing Systems", Journal of the Textile Institute, Vol:92, No:3, pp:315-332, 2001.
• 5. Donciu, C., 2013,"Core Conductive Yarn Based Integral Knitted ESD Garments Part I Metallic Core Conductive Yarns Investigation", Advanced Materials Research, Vol:772, pp: 467-473.
• 6. Donciu, C., 2014, "Estimating ESD Properties of Fabrics Based on Correlation between Dielectric Losses and Charge Decay Time", Advanced Materials Research, Vol: 837, pp: 688-693.
• 7. Boxleitner W., 1998, Electrostatic Discharge and Electronic Equipment – A Practical Guide for Designing to Prevent ESD Problems, IEEE Press: New York, 1st Edition.
• 8. Fujiwara O. and Ikawa T., "Numerical Calculation of Human-Body Capacitance by Surface Charge Method", Nagoya Institute of Technology Faculty of Engineering, Technical Report, pp: 466-8555.
• 9. NEVA Electromagnetics Web Site, Last access Date: 25 October 2013, URL: http://www.nevaelectromagnetics.com,
• 10. Fujiwara O. and Ikawa T., 2002, "Numerical Calculation of Human-Body Capacitance by Surface Charge Method", Electronics and Communications in Japan, Part 1, Vol: 85(12), pp: 38-44.
• 11. Life Engineering and Technology Research Laboratory, 1996, Human body data collection for design. Japan Publication Service.
• 12. Donciu, C., 2013,"Core Conductive Yarn Based Integral Knitted ESD Garments Part I Metallic Core Conductive Yarns Investigation", Advanced Materials Research, Vol:772, pp: 467-473.
• 13. Donciu, C., 2014, "Estimating ESD Properties of Fabrics Based on Correlation between Dielectric Losses and Charge Decay Time", Advanced Materials Research, Vol: 837, pp: 688-693.
• 14. Palamutcu, S., Özek, A., Karpuz C., and Dağ, N., 2010, "Electrically Conductive Textile Surfaces and their Electromagnetic Shielding Efficiency Measurement", Tekstil ve Konfeksiyon, Vol:20(3), pp: 199-207.
• 15. Standard EN 1149-3: 2004, "Protective clothing; Electrostatic properties; Part 3: Test method for measurement of charge decay".
• 16. Standard IEC 61340-5-1: 1998, "Protection of electronic devices from electrostatic phenomena –General requirements".
• 17. Standard EN 1149-1: 1996, "Protective clothing – Electrostatic properties – Part 1: Test methods for measurement of surface resistivity".
• 18. Standard EN 100015-1: 1992, "Protection of electrostatic sensitive devices. Part 1: General requirements".
• 19. Standard IEC 61340-2-1: 2002, "Electrostatics - Part 2-1: Measurement methods - Ability of materials and products to dissipate static electric charge".
• 20. Paasi, J., Coletti, G., Fast, L., Lemaire, P., Vogel, C., Peltoniemi, T., Reina, G., Börjesson, A., Smallwood, J., ESD-protective clothing for electronics industry - A new European research project ESTAT-Garments, 6th Dresden Textile Conference, June 19-20, 200