E. M. El-Khatib, W. M. Raslan, A.A. El-Halwagy and S. Galab
Low temperature plasma (LTP) treatment of textiles has emerged as one of the environmentally friendly surface modification methods. In this work, the effect of LTP treatment…
Abstract
Low temperature plasma (LTP) treatment of textiles has emerged as one of the environmentally friendly surface modification methods. In this work, the effect of LTP treatment generated by a dielectric barrier discharge technique (DBD) under atmospheric pressure by using three different gases; oxygen, nitrogen and air, on the properties of wool/polyester blend, is studied. The induced changes in wool/polyester blend properties, such as whiteness index, wettability, surface roughness, tensile strength, elongation %, surface morphology, dyeability and fastness properties are investigated. These changes are found to be dependent on the plasma treatment conditions, such as the gas that is used, discharge power and exposure time. The LTP treatments enhance the dyeing ability of the fibres with acid, basic and disperse dyestuffs as well as the fastness properties, and represent an approach to dyeing the blend in one bath.
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S. Ghalab, W. M. Raslan, E.M. El-Khatib and A.A. El-Halwagy
Plasma surface treatment of silk has been carried out in atmospheric air under experimental conditions at different discharge powers and plasma exposure times. The treated fabric…
Abstract
Plasma surface treatment of silk has been carried out in atmospheric air under experimental conditions at different discharge powers and plasma exposure times. The treated fabric samples are printed with reactive dye using a conventional silk screen printing technique. After drying, the samples are steam fixed at 102°C for 15 min, washed and air dried. Before and after printing, both treated and untreated samples are subjected to different investigations. The wetting time is found to depend upon the treatment time and discharge power. The colour strength of the treated samples printed with reactive dye is improved to a large extent compared with the untreated samples. An improvement in the fastness properties of the printed samples to washing, rubbing and perspiration is also noticed.
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S.H. Abdel-Fattah and E.M. El-Khatib
Wool fabric is a suitable medium for growing bacteria under favorable temperature and humidity conditions resulting in wool degradation, skin irritation or infections. Carboxylic…
Abstract
Wool fabric is a suitable medium for growing bacteria under favorable temperature and humidity conditions resulting in wool degradation, skin irritation or infections. Carboxylic groups were incorporated in wool polypeptide chains by grafting acrylic acid initiated chemically with hydrogen peroxide and metallic anions of Cu2+.The mechanism of grafting is suggested, and post-treatment with two antibiotics, Neomycin (Ne) and Tetracycline hydrochloride (Te), to obtain antibacterial fibers in relation to Gram-positive and Gram-negative microorganisms. This was confirmed by measuring the inhibition zone of treated wool fabric with the above mentioned antibiotic under various conditions. The modified fabrics showed different activities in relation to the microorganisms being dependent on the type and quantity of added biocide. Post-treated wool fabric displayed excellent bacteriostatic durability on fabric after multiple washing. FT-IR spectroscopy confirmed the ionic interaction between wool and the antibiotic due to the appearance of new bands at 1650 cm−1 corresponding to amide I and band at 1520 cm−1 attributed to amide II. Wool treated with the aforementioned method showed improvement in shrinkage. Changes in surface morphology were also observed.
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N.F. Ali, R.S.R.EL. Mohamedy and E.M. El- Khatib
Natural dyes extracted from Cassia fistula and onion peels are used to dye wool that is pretreated with chitosan by using tannic acid as a mordant. The effect of the mordant…
Abstract
Natural dyes extracted from Cassia fistula and onion peels are used to dye wool that is pretreated with chitosan by using tannic acid as a mordant. The effect of the mordant concentration on the color strength (K/S) is discussed. The results obtained indicated that K/S increases after treatment with chitosan. It is also noticed that K/S increases with an increasing concentration of chitosan. K/S also increases with an increase of mordant concentration until 4% and then decreases. The effect of the dye bath pH, dyeing temperature and dyeing time are also studied. The K/S and dye uptake exhibit high values. Good fastness properties of the dyed fabric are achieved. The antimicrobial activity of chitosan-treated wool fabric is tested in accordance to diffusion agents. Test organisms, such as Escherichia coli, Bacillus subitilus Pseudomons aeruginosa and Staphylococcus aureus are used and the results indicate that the samples treated with a lower concentration of chitosan exhibit a smaller inhibition zone.
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The present article review is pertaining to recent developments in antimicrobial and self-cleaning textiles using nanotechnology. Nanosized metal and metal oxide particles in…
Abstract
The present article review is pertaining to recent developments in antimicrobial and self-cleaning textiles using nanotechnology. Nanosized metal and metal oxide particles in single use or aided by other means are emphasized as versatile tools to achieve such properties. Mechanisms involved in effecting self-cleaning as well as antimicrobial functional characteristics to different textile material are reported. Also reported are the impacts of these characteristics on the performance of the textile products. Moreover, future research and developmental works are envisioned. This concept means we can be protecting ourselves from diseases by preventing pollution and microbial effect to our bodies. So, we not need to any drugs.
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Glycidyl triethyl ammonium chloride (GTEAC) was used to chemically modify the primary amine groups (-NH2) in wool fabrics to acquire new properties. The properties of treated wool…
Abstract
Glycidyl triethyl ammonium chloride (GTEAC) was used to chemically modify the primary amine groups (-NH2) in wool fabrics to acquire new properties. The properties of treated wool fabrics were studied such as wettability, whiteness, nitrogen content, dyeability, fastness and antimicrobial properties. Modified cationic wool fabrics enhanced hydrophilicity, dyeing properties and biocidal activity. The treatment led to improvement in dyeability, fastness, wettability, whiteness and antimicrobial activity. Dyeing was performed with natural dye obtained from Tumeric at 85°C. Curcumin is an active ingredient in turmeric (Curcuma longa L.). Curcumin, a common natural dye used for fabrics and food colorations, was used as an antimicrobial finish due to its bactericidal properties on dyed textiles. A common dyeing process could provide wool fabrics with color as well as antimicrobial properties. The antimicrobial activity of wool fabrics treated with (GTEAC) and dyed with curcumin was studied. The durability of antimicrobial activity of curcumin dyed wool fabrics to laundering was also examined.
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Everyone is extremely concerned about environmental protection and health safety due to the rise in living standards. Plant-derived natural dyes have garnered much industrial…
Abstract
Purpose
Everyone is extremely concerned about environmental protection and health safety due to the rise in living standards. Plant-derived natural dyes have garnered much industrial attention in food, pharmaceutical, textile, cosmetics, etc. owing to their health and environmental benefits. The present study aims to focus on the elimination of the use of synthetic dyes and provides brief information about natural dyes, their sources, extraction procedures with characterization and various advantages and disadvantages.
Design/methodology/approach
In producing natural colors, extraction and purification are essential steps. Various conventional methods used till date have a low yield, as these consume a lot of solvent volume, time, labor and energy or may destroy the coloring behavior of the actual molecules. The establishment of proper characterization and certification protocols for natural dyes would improve the yielding of natural dyes and benefit both producers and users.
Findings
However, scientists have found modern extraction methods to obtain maximum color yield. They are also modifying the fabric surface to appraise its uptake behavior of color. Various extraction techniques such as solvent, aqueous, enzymatic and fermentation and extraction with microwave or ultrasonic energy, supercritical fluid extraction and alkaline or acid extraction are currently available for these natural dyes and are summarized in the present review article.
Originality/value
If natural dye availability can be increased by the different extraction measures and the cost of purified dyes can be brought down with a proper certification mechanism, there is a wide scope for the adoption of these dyes by small-scale dyeing units.
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Shahid Adeel, Fazal-Ur Rehman, Ayesha Amin, Nimra Amin, Fatima Batool, Atya Hassan and Meral Ozomay
This study aims to observe the coloring efficacy of coffee-based natural brown colorant for cotton dyeing under microwave (MW) treatment.
Abstract
Purpose
This study aims to observe the coloring efficacy of coffee-based natural brown colorant for cotton dyeing under microwave (MW) treatment.
Design/methodology/approach
The colorant extracted in particular (neutral and acidic) media was stimulated by MW treatment up to 6 min. Dyeing variables were optimized and 2–10 g/100 mL of sustainable anchors (mordants) have been used to get colorfast shades.
Findings
It has been found that un-irradiated acidic extract (RE) containing 5% of table salt at 80 °C for 50 min has given high color yield onto MW-irradiated cotton fabric (RC = 2 min). The utilization of 2% of Fe, 10% of tannic acid and 10% of sodium potassium tartrate before bio-coloration, whereas 4% of Fe, 10% of tannic acid and 6% of sodium potassium tartrate after bio-coloration has given good color characteristics. In comparison the application of 6% of pomegranate and turmeric extracts before bio-coloration and 6% of pomegranate and 10% of turmeric extracts after bio-coloration have given good color characteristics. New bio-mordants can be added to get more new colorfast shades.
Research limitations/implications
There is no research limitation for this work. New bio-mordants can be added to get more new colorfast shades.
Practical implications
This work has practical application for artisans, textile industry and handicrafts. It is concluded that colorant from coffee beans can be possible alternative of synthetic brown dyes and inclusion of MW rays for extraction and plant molecules as shade developers can make process more green.
Social implications
Socially, it has good impact on eco-system and global community because the effluent load is not carcinogenic in nature.
Originality/value
The work is original and contains value-added product for textiles and other allied fields.
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The purpose of this research is to develop an environmentally friendly antimicrobial dyeing of cotton fabric from the root of Euclea racemosa. Textile phytochemical finishing is…
Abstract
Purpose
The purpose of this research is to develop an environmentally friendly antimicrobial dyeing of cotton fabric from the root of Euclea racemosa. Textile phytochemical finishing is in high demand worldwide because of its low toxicity, low pollution, ease of availability, renewability, pharmacological effects and non-carcinogenic properties, as well as its multifunctionality, rapid process stages and potential health benefit.
Design/methodology/approach
The cotton fabric was dyed with aqueous extracts of Euclea racemosa root dyes. Dyes were extracted for 20 min at pH 7.43 at room and boiling temperatures with material-to-liquor ratios (MLRs) of 1:5, 1:10, 1:15 and 1:20, altering one variable at a time, and the cotton fabric was colored using a post-mordanting procedure at 50°C with an MLR of 1:20. Using a properly cleaned Petri plate, the colored samples were tested in vitro for antibacterial activity. A spectrophotometer was used to assess color strength and shade depth, as well as wash fastness and annual rubbing fastness tests for both wet and dry.
Findings
L* = 36.29, a* = 58.56, b* = 32.46 and K/S = 0.51 were the CIELAB values for dye extracted at boiling temperature. L* = 47.14, a* = 42.23, b* = 49.61 and K/S = 0.38 were the CIELAB values for dye extracted at room temperature. The wash and rubbing fastness of the dyed samples were outstanding and the dyed cotton fabrics were found antibacterial against Gram-negative bacteria Escherichia coli.
Originality/value
Dyes derived from the E. racemosa root could be used to develop a new antibacterial cotton fabric dye.
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The textile sector is one of the sectors where competition is intense and requires the production of high-value-added products. This study aims to conduct patent analysis to find…
Abstract
Purpose
The textile sector is one of the sectors where competition is intense and requires the production of high-value-added products. This study aims to conduct patent analysis to find the technology status, recent trends, applications and technological evaluations of protective textile technologies in practice.
Design/methodology/approach
More than 36,840 patent documents related to protective textile technologies are available for researchers, patent examiners and patent researchers. Patent analysis is conducted to report the technology status, recent trends and applications of protective textile technologies. This analysis provides insights into the possible future directions of protective textile technologies in practice. Additionally, association rule mining (ARM) is performed to find the hidden patterns among protective textile technologies.
Findings
The development of protective textile technologies is revealed by the technology evaluation in this study. In addition, the sub-technology classes affecting protective textile technologies are examined using the cooperative patent classification (CPC) codes of the patent documents. Technology status and recent trends of protective textile technologies are provided in detail. The results of this study show that (1) protective textile technologies are constantly being developed, (2) the working areas of medical protective textiles are increasing, (3) there are frequent studies on fabric structures for saving lives within the framework of human needs and (4) there are four technology classes, namely A41D, Y10T, B32B and A62B impacting the other technology classes related to textile technologies such as D10B, Y10T, F41H, A62D, D04H, Y10S and D10B.
Originality/value
To have a competitive advantage in the marketplace, evaluation of textile technologies is critical in developing “functionalized” and “technologized” textile products. In particular, evaluating technologies in developing protective textile products is extremely important to meet customer demands and present competitive products in the market. Examining these patents for technology developers, decision-makers and policymakers is an urgent and necessary job. However, studies examining the development of protective textile technologies with patent analysis are very limited in the literature. To fill this gap, technology status, recent trends and applications of protective textile technologies are reported based on patent analysis and ARM in this study.