RISS 검색 - 국내학술지논문

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Effect of Solvent Dyeing Medium on Dye Encapsulation and Non-Aqueous Dyeing of Cotton Fabric with Rhamnolipid (RL) Microbial Biosurfactant-Based Reactive Dye Encapsulated Reverse Micelles

Yiu Lun Alan Tang,Cheng-hao Lee,Yanming Wang,Chi‑wai Kan 한국섬유공학회 2023 Fibers and polymers Vol.24 No.12
Feasibility and applicability of rhamnolipid (RL) microbial biosurfactant-based reverse micellar non-aqueous system in different solvent medium for dyeing of cotton fabrics was investigated. In this study, several solvents, including heptane, octane, nonane, decamethylcyclopentasiloxane (D5), and paraffin liquid (PL), were chosen as the dyeing medium for non-aqueous dyeing of cotton fabrics with fixed dyeing parameters. The dyeing properties of these RL reverse micellar dyed samples in different solvent medium were examined and compared with the conventional water-dyed samples in terms of color yield (K/Ssum value), CIE L*a*b* values, color levelness and reflectance. Most non-aqueous RL reverse micellar dyed samples exhibited better color yield than conventional water-dyed samples. The surface morphology of dyed cotton samples and the dye encapsulation morphology in different solvent medium were observed by SEM and TEM, respectively. Most non-aqueous dyed samples yielded good to excellent levelness comparable to water-dyed samples. However, poor levelness and bad levelness were found for D5-and PL-dyed samples. Further modification of dyeing parameters would be needed to obtain the best dyeing results for D5-dyed and PL-dyed samples.
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A Computer Colour Matching (CCM) Study on Non-aqueous Reactive Dyeing of Cotton Fabric with Rhamnolipid (RL) Microbial Biosurfactant-Based Reverse Micelles

Alan Yiu Lun Tang,Cheng-hao Lee,Yanming Wang,Chi‑wai Kan 한국섬유공학회 2023 Fibers and polymers Vol.24 No.2
The feasibility of computer colour matching (CCM) of rhamnolipid-based reverse micellar dyeing system on cotton fibre inoctane media has been investigated and compared with that of conventional water-based dyeing system. Calibration resultsconfirm that the calibration curves of both systems are linear in structure. Reflectance curves reveal that both water-dyedand RL octane-dyed standard and batch samples are identical in shape without any peak shift and alteration of colour properties. The actual colour matching results of RL octane reverse micellar dyeing system are close to theoretical predictionwith percentage difference less than 25%, verifying the applicability of CCM on RL reverse micellar dyeing system. RLoctane-dyed samples can achieve good to excellent levelness, washing and rubbing fastness, which are comparable to thatof water-dyed samples. Further experiments have been conducted to analyse the zeta-potential surface charge, particle sizedistribution and Raman spectra of RL. Volatile organic compound (VOC) detection and solvent recovery have also beenconducted. Experimental results reveal that the leakage of octane solvent is between 2 and 3 ppm which is at acceptably lowlevel whilst more than 98% of octane can be recovered for further use after the RL reverse micellar dyeing process, validatingthe environmental friendliness potential of the RL octane reverse micellar dyeing system.
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Reverse Micellar Dyeing of Wool Fabric with Reactive Dyes

Yanming Wang,Yiu-lun Tang,Cheng-hao Lee,Chi-wai Kan 한국섬유공학회 2019 Fibers and polymers Vol.20 No.11
The approach of using reverse micelle with nonionic surfactant (poly(ethylene glycol), PEG)) as building blockhas been employed to investigate dyeability of wool fabrics with reactive dyes in a one-bath non-aqueous solvent system. Three colours were used and they were encapsulated in the core of the PEG-based reverse micelle under optimised processparameters (i.e. (i) Solvent volume to wool fabric weight ratio (v/w)=10:1; (ii) Surfactant/water mole ratio=0.04:1; (iii)Surfactant/co-surfactant mole ratio=1:8; (iv) Volume of water-pool for dye=0.5 ml; (v) Dyeing time=50 minutes; and (vi)Dyeing temperature=88 oC). Comparison of non-aqueous and aqueous-based (water-based) dyeing was conducted in terms ofdyeability as reflected by colour yield and colour fastness properties. Experimental results revealed that the reverse micellarnon-aqueous dyeing system can provide a better dyeing performance than aqueous-based dyeing system.
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Dyeing Wool Knitted Fabric in Nano-scale Reverse Micelle with Reactive Dyes - A Computer Colour Matching Study

Cheng-hao Lee,Yanming Wang,Yiu-lun Tang,Chi-wai Kan 한국섬유공학회 2021 Fibers and polymers Vol.22 No.5
The colour quality assessment of reverse micelle-based (in octane or nonane medium) and conventional waterbaseddyed wool knitted fabric has been investigated using computer colour matching (CCM) approach. Both water-basedand non-aqueous based dyeing methods exhibited no chromatic shift from the reflectance curves and established goodlinearity in the construction of calibration curves. The linearity of both calibration curves in terms of R2 value played a criticalrole in CCM. The colour yield obtained from reverse micellar dyed fabric samples was higher than the colour yield valuesfrom wool knitted fabrics dyed in water bath under different dye percentages. The CCM predicted concentrations were ingood agreement to theoretical concentrations for both dyeing systems. To conclude, the results showed that reverse micellardyeing in octane and nonane is capable of generating reliable colour recipes. The relative unlevelness indices (RUI) obtainedfrom dyed wool knitted fabrics using reverse micellar approach reveal good to excellent levelness, which fulfills therequirements of the textile processing industry. TEM picture illustrated that reverse micelles are in nano-scale and this couldenhance the dyeing effect of wool with reactive dyes.

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