기관회원 [로그인]
소속기관에서 받은 아이디, 비밀번호를 입력해 주세요.
개인회원 [로그인]

비회원 구매시 입력하신 핸드폰번호를 입력해 주세요.
본인 인증 후 구매내역을 확인하실 수 있습니다.

회원가입
서지반출
Antistatic Effect of Atmospheric Pressure Glow Discharge Cold Plasma Treatment on Textile Substrates
[STEP1]서지반출 형식 선택
파일형식
@
서지도구
SNS
기타
[STEP2]서지반출 정보 선택
  • 제목
  • URL
돌아가기
확인
취소
  • Antistatic Effect of Atmospheric Pressure Glow Discharge Cold Plasma Treatment on Textile Substrates
  • Antistatic Effect of Atmospheric Pressure Glow Discharge Cold Plasma Treatment on Textile Substrates
저자명
Samanta. Kartick Kumar,Jassal. Manjeet,Agrawal. Ashwini K.
간행물명
Fibers and polymers
권/호정보
2010년|11권 3호|pp.431-437 (7 pages)
발행정보
한국섬유공학회
파일정보
정기간행물|ENG|
PDF텍스트
주제분야
기타
이 논문은 한국과학기술정보연구원과 논문 연계를 통해 무료로 제공되는 원문입니다.
서지반출

기타언어초록

Hydrophobic synthetic textile substrates, nylon and polyester fabrics, were continuously treated in an atmosphericpressure-glow-discharge-cold-plasma reactor using He and air. The samples were evaluated for antistatic properties by measuring the static charge build-up and half charge decay time. The 60 sec air-plasma treated nylon fabric produced only 1.53 kV of charge and showed a significantly smaller half decay time of 0.63 sec compared to static voltage of 2.76 kV and a half decay time of 8.9 sec in the untreated nylon fabric. In comparison, the He plasma treated nylon fabrics showed relatively less improvement by producing static charge built-up of 2.12 kV and half charge decay time of 1.1 sec. Similar improvements were obtained for polyester (PET) fabrics as well. The treated samples showed good antistatic properties even after five laundry wash cycles. The surface characteristics of the samples were investigated using SEM, AFM, and ATR-FTIR. The results revealed that the improvement on antistatic properties are attributable to increase in the surface energy of the fabrics due to the formation of hydrophilic groups and increase in the surface area due to the formation of nano-sized horizontal and vertical channels on the fibre surface. The study suggests that plasma treatment may be used for imparting effective antistatic finish on otherwise hydrophobic substrates.