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pISSN : 1229-0033 / eISSN : 2234-036X

2020 KCI Impact Factor : 0.36
목적과 범위
본 학술지는 각종 섬유소재와 고분자 재료에 염색(coloration, dyeing) 및 가공(finishing)을 행하여 제품의 고급화와 고부가가치화를 창출할 수 있도록 과학과 기술에 대한 학술적 및 기술적 내용을 다루고 있으며, 국내의 염색산업, 섬유산업, 고분자 및 화학공업과 관련된 원료의 합성, 개질, 가공 및 각종 응용 등이 포함되어 있다. 나아가 소재의 색과 고기능화 기술은 섬유소재 뿐만 아니라 필름, 플라스틱, 염료, 색소, Fine chemicals, 화장품, 식품, 산업용 소재 및 의료(medical)산업 등의 전 산업분야에 걸쳐 학술적 기초 내용과 응용 기술을 다룸으로써 귝내 연관 산업 발전에 기여하고자 함을 목적으로 한다. 특히, 공학분야의 섬유관련 학술지로서 섬유산업의 mid-stream에 해당하는 염색과 가공분야를 다루고 있어 전후방 산업에 해당하는 관련 학회와도 학술적 정보의 교환이 활발히 이루어지고 있다. 
정의경 (경북대학교)
  • KCI IF(2년) : 0.36
  • KCI IF(5년) : 0.3
  • 중심성지수(3년) : 0.383
  • 즉시성지수 : 0.2286

최근발행 : 2020, Vol.32, No.4

  • A Quinoline carboxamide based Fluorescent Probe’s Efficient Recognition of Aluminium Ion and its Application for Real Time Monitoring

    Ramalingam Manivannan | Jiwon Ryu | 손영아 | 2020, 32(4) | pp.185~192 | 피인용수 : 0
    초록 PDF
    A novel binding site for metal ion made by designing molecule with tetrazolo quinoline with hydrazine carboxamide (TQC) and the designed molecule successfully synthesized. The probe works by selectively detecting Al3+ ion via both fluorimetric and colorimetric approach. The probe’s effectiveness towards aluminium ion detection is highly sensitive and selective with no substantial interference with other competing ions. The added Al3+ ion to TQC fetched a rapid change of visual color to yellow from colorless, also the response of fluorescence turn-on. The fluorescence turn-on and color change visibly by the probe TQC with Al3+ ion credited to the ICT phenomenon (intramolecular charge-transfer transition). The likely interaction of the probe with aluminium ion has also been there predicted from ESI-MS spectral analysis results. The usefulness of the probe confirmed by practical utility by making a test kit to monitor Al3+ ion in water which showed a naked eye detection by notable color change.
  • 식품 폐기물을 이용한 친환경 생촉매의 발굴과 인디고 환원에 응용

    손경희 | 유동일 | 신윤숙 | 2020, 32(4) | pp.193~198 | 피인용수 : 0
    초록 PDF
    In this study, the validity of extracts from food waste as biocatalyst for indigo reduction was examined. Dried food wastes such as apple peel and corn waste were water-extracted and freeze-dried. The reducing power of extracts for indigo was evaluated by the oxidation-reduction potential(ORP) measurement of reduction bath and color strength(K/S value) of the fabrics dyed in the indigo reduction bath. Total sugar contents of the apple peel and corn waste extracts were 60.56% and 62.36%, respectively. Antioxidant activity was 64.78% for the extract of apple peel and 7.96% for the extract of corn waste. Indigo reduction took place quickly with both extracts, and maximum color strength was obtained up to 15.91 and 12.11 within 1~3 days, respectively. The oxidation-reduction potential of reduction bath was stabilized in the range of -500 ~ -620 mV according to the kinds of food waste and the extract concentration. At higher concentration of the extracts, reduction power was maintained for longer time and stronger color strength was obtained. Compared to sodium dithionite, the reducing power of the studied extracts was lower, but the reduction stability was superior to it. The studied extracts were effective biocatalyst as biodegradable and safe alternatives to sodium dithionite for indigo reduction.
  • 오배자 천연염색을 적용한 필터교체형 면마스크 개발

    김민서 | 송현주 | 이소희 | 2020, 32(4) | pp.199~207 | 피인용수 : 0
    초록 PDF
    Recently, as the demand for masks increases, the use of filter-replaceable cotton masks is increasing. A filter-replaceable cotton mask is one of the ways to solve the environmental problems of a disposable nonwoven mask because only the filter can be replaced after washing. Cotton fiber products are known to be environmentally friendly, but cotton products dyed with general synthetic dyes are not safe for humans. In this study, to prepare of cotton mask applied with natural dyeing, the optimal dyeing conditions are set when dyeing with gallnut extract. A polychromatic natural dye that changes color by mordant, and the functionalities of gallnut dyeing fabrics are evaluated. The experimental method is dyed the gallnut by temperature and time by concentration to set the optimal conditions. The color fastness rating grade of aluminium potassium sulfate dodecahydrate, copper(ll) sulfate pentahydrate, and iron(ll) chloride tetrahydrate were evaluated after the pre/post mordanting.