Tufting Halılarda Hav Yoğunluğu ile Elektriksel Direnç İlişkisinin Araştırılması
Yıl 2018,
Cilt: 25 Sayı: 111, 241 - 245, 01.10.2018
İlkan Özkan
Pınar Duru Baykal
Kaynakça
- nci Başarır, F., (2013), Elektronik İmalat Aşamasında Güvenlik, Statik Elektriğe Karşı Önlemler, TMMOB Elektrik Mühendisliği Dergisi, 447, 42-44.
- Messina J., (2009), AT&T Electrostatic discharge control, 2, 1-21, ABD.
- Groop, E. E., et al., (2003), Comparison of surface resistivity and triboelectric charge generation characteristics of materials, Proceedings of the 40th Space Congress.
- Maclaga, B. ve Fisher, W. K., (2001), Static dissipation mechanism in carpets containing conductive fibers, Textile Research Journal, 71(4), 281-286.
- Männer J. ve ark., (2011), Tencel® - New cellulose Fibers For Carpets, Lenzinger Berichte, 89, 60-71.
- Kessler L. ve Fisher W. K., (1997), A study of the electrostatic behavior of carpets containing conductive yarns, Journal of Electrostatics, 39, 253-275.
- Kacprzyk R. ve Urbaniak-Domagata W., (1997), Discharge of the carpet type structure antistatized by introduction of conducting fibres, Journal of Electrostatics, 40(41), 553-558.
- Altafim R. A. C., (1997), Fujiwara J. K. ve Giacometti J. A., Electrostatic Characterization of Carpets Using a Corona Triode, IEEE Annual Report - Conference on Electrical Insulation and Dielectric Phenomena, Minneapolis, 19-22.
- Özyüzer, L., Meriç, Z., Selamet, Y., Kutlu, B., ve Cireli, A., (2010), Mıknatıssal Saçtırma Sistemi ile Metal Kaplanan Polipropilen Liflerin Antistatik ve Antibakteriyel Özellikleri, Tekstil ve Mühendis, 17(78): 1-5.
- Özkan, İ., (2017), Metal ve Metalize Filamentlerin Halılarda Kullanımı, Çukurova Üniversitesi, Fen Bilimleri Enstitüsü, Tekstil Mühendisliği Anabilim Dalı, Doktora Tezi.
- Başer, İ. (2002), Elyaf bilgisi, Marmara Üniversitesi, İstanbul, Yay. No. 687, 153-154.
- Maryniak, W. A., Uehara, T., & Noras, M. A. (2003), Surface resistivity and surface resistance measurements using a concentric ring probe technique, Trek Application Note, 1005, 1-4.
Investigation of Relationship Between Tufting Carpet’s Surface Resistivity and Pile Density
Yıl 2018,
Cilt: 25 Sayı: 111, 241 - 245, 01.10.2018
İlkan Özkan
Pınar Duru Baykal
Öz
Static electricity is the electrical imbalance in the surface of the
material that interacts with the surrounding materials. Carpets are prone to
static electricity due to the insulating properties of the fibers used in its
structure. Carpets consist of pile yarns on the surface and yarn groups in the
backing structure. In this study, the relationship between static electricity
and carpet pile density was investigated. For this purpose, samples of tufting carpet
with three different pile densities were produced and the electrical
resistances (surface resistivity and volume resistance) of these samples were
measured. The obtained data were statistically analyzed and evaluated. The assessments showed that the increase in the
pile density did not cause a statistically significant difference in electrical
resistance of tufting carpets.
Kaynakça
- nci Başarır, F., (2013), Elektronik İmalat Aşamasında Güvenlik, Statik Elektriğe Karşı Önlemler, TMMOB Elektrik Mühendisliği Dergisi, 447, 42-44.
- Messina J., (2009), AT&T Electrostatic discharge control, 2, 1-21, ABD.
- Groop, E. E., et al., (2003), Comparison of surface resistivity and triboelectric charge generation characteristics of materials, Proceedings of the 40th Space Congress.
- Maclaga, B. ve Fisher, W. K., (2001), Static dissipation mechanism in carpets containing conductive fibers, Textile Research Journal, 71(4), 281-286.
- Männer J. ve ark., (2011), Tencel® - New cellulose Fibers For Carpets, Lenzinger Berichte, 89, 60-71.
- Kessler L. ve Fisher W. K., (1997), A study of the electrostatic behavior of carpets containing conductive yarns, Journal of Electrostatics, 39, 253-275.
- Kacprzyk R. ve Urbaniak-Domagata W., (1997), Discharge of the carpet type structure antistatized by introduction of conducting fibres, Journal of Electrostatics, 40(41), 553-558.
- Altafim R. A. C., (1997), Fujiwara J. K. ve Giacometti J. A., Electrostatic Characterization of Carpets Using a Corona Triode, IEEE Annual Report - Conference on Electrical Insulation and Dielectric Phenomena, Minneapolis, 19-22.
- Özyüzer, L., Meriç, Z., Selamet, Y., Kutlu, B., ve Cireli, A., (2010), Mıknatıssal Saçtırma Sistemi ile Metal Kaplanan Polipropilen Liflerin Antistatik ve Antibakteriyel Özellikleri, Tekstil ve Mühendis, 17(78): 1-5.
- Özkan, İ., (2017), Metal ve Metalize Filamentlerin Halılarda Kullanımı, Çukurova Üniversitesi, Fen Bilimleri Enstitüsü, Tekstil Mühendisliği Anabilim Dalı, Doktora Tezi.
- Başer, İ. (2002), Elyaf bilgisi, Marmara Üniversitesi, İstanbul, Yay. No. 687, 153-154.
- Maryniak, W. A., Uehara, T., & Noras, M. A. (2003), Surface resistivity and surface resistance measurements using a concentric ring probe technique, Trek Application Note, 1005, 1-4.