Textile Products Research Articles

Untwisting Beycesultan Höyük: the earliest evidence for nålbinding and indigo-dyed textiles in Anatolia

Cuneiform tablets indicate the importance of textile manufacturing in the Bronze Age Old Assyrian Colony Period and Hittite Empire, yet the organic traces of this industry rarely survive. Two burnt textile fragments found at Beycesultan offer an unexpected insight into the Bronze Age textile industry in Anatolia. Here, the authors present the results of chromatographic and microscopic analyses that indicate one fragment was made from hemp using the nålbinding, or single-needle knitting, technique and was dyed with the woad or indigo plant, while the other was a natural tabby weave. Both add to our understanding of the diversity of textile production in the Bronze Age.

Investigating young consumers’ acceptance of hemp fiber textiles and apparel: an analysis of Partial Least Squares Structural Equation Modeling

Purpose Concerns over environmental degradation, alongside the global legalization of hemp cultivation, have prompted applications of hemp-derived textile products. However, research examining consumers’ acceptance of such products is lacking. It is critical to understand how young consumers adopt these products as they prioritize sustainability and lead the future purchasing power. Thus, this study aims to investigate young consumers’ perceptions, attitudes, and purchase intentions regarding hemp fiber textiles and clothing based on the Theory of Consumption Value and the Spiral of Silence Theory. Design/methodology/approach A US-based research company was hired to recruit survey participants, yielding 314 valid data. Data analysis, including Exploratory Factor Analysis and Partial Least Squares Structural Equation Modeling, was conducted using the R programming language and RStudio software. Findings Purchase intentions of hemp-based clothing and textiles among young consumers are influenced by attitude, perceived social value and future trend perception. Perceived social value also impacts attitude and future trend perception. High environmental involvement correlates with positive attitudes. Consumers’ subjective knowledge of hemp and objective knowledge regarding hemp fiber impact their perceptions of future trends in such products. Originality/value This research represents a seminal consumer study focusing on the resurgence of industrial hemp fiber textiles and clothing. This study empirically validates the significant role of social factors in young consumer acceptance of such products at both personal and societal levels. This study expands current knowledge and provides actionable insights for practitioners.

Metal Acetate-Enhanced Microwave Pyrolysis of Waste Textiles for Efficient Syngas Production

The production of waste textiles has increased rapidly in the past two decades along with the rapid development of the economy, the majority of which has been either landfilled or incinerated, resulting in energy loss and environmental pollution. Microwave pyrolysis, which can transform heterogeneous and complex waste feedstocks into value-added products, is considered one of the most competitive technologies for processing waste textiles. However, achieving selective product formation during the microwave pyrolysis of waste textiles remains a significant challenge. Herein, sodium acetate, potassium acetate, and nickel acetate were introduced into waste textiles through an impregnation method as raw materials to improve the pyrolysis efficiency. The optimized process parameters indicated that nickel acetate had the most favorable promotional effect of the three acetates. Notably, the waste textiles containing 1.0% Ni exhibited the highest gas production rate, with the hydrogen-containing combustible gas reaching 81.1% and 61.0%, respectively. Using X-ray diffraction (XRD), transmission electron microscopy (TEM), Fourier transform infrared spectroscopy (FTIR), and Raman spectroscopy to characterize the waste textiles before and after pyrolysis, it was found that nickel acetate was converted into metallic nickel (Ni0) during microwave pyrolysis. This active site significantly enhanced the pyrolysis process, and as the gas yield increased, the disorder of the resulting pyrolytic carbon also rose. The proposed Ni0-enhanced microwave pyrolysis mediated by nickel acetate offers a novel method for the efficient disposal and simultaneous resource recovery of waste textiles.

The Impact of Green Supply Chain Management on Green Innovation, Environmental Performance, and Competitive Advantage

Environmental issues are increasing in importance for businesses day by day. Businesses are undergoing an environmentally focused transformation in all their activities within the value chain. Therefore, the necessity of integrating and maintaining the concept of “green” in all processes such as production, technology development, marketing, and supply chains has emerged. Topics such as environmentally sensitive production systems, green supply, and green innovation (GI) are both accepted in practice in various sectors and are examined in the literature. When the impact of green practices on the performance items of businesses is taken into consideration, it is important to examine the issue from this perspective. In this context, the aim of this study is to examine the impact of green supply chain management (GSCM) practices on GI, environmental performance (EP), and competitive advantage (CA). Within the framework of this aim, a survey was conducted on 283 businesses producing plastic, packaging, and textile products in Gaziantep (169) and Konya (114) provinces in Türkiye. In this study, where the quantitative research method was adopted, the hypotheses established were tested by using structural equation modeling (SEM). SPSS 22.0 package program and AMOS 22.0 program were used in the analysis. Within the scope of the analysis, the measurement model (confirmatory factor analysis) was first tested. As a result of the analysis, GSCM practices have a positive impact on GI and CA; GSCM has a positive impact on EP; GI has a positive impact on CA; and EP has not a positive impact on CA. This study is significant as it examines the combined impact of GSCM, GI, EP, and CA. Also, this study is important as it is the first study to examine the impact of GSCM practices on GI, EP, and CA in Türkiye.

Functionalization of Cotton Textiles via Screen Printing of Aronia melanocarpa Berry Extract–Chitosan Mixtures

ABSTRACT The use of plant-based materials as alternatives to the hazardous synthetic chemicals traditionally employed in textile production can help create a more sustainable society; however, such materials have not been explored in sufficient detail. Herein, cotton fabrics were screen-printed with pastes containing Aronia berry extract (AE) and chitosan (CS), dried, cured, and washed. Subsequently, the printed fabrics were investigated in terms of their color, mechanical properties, and antibacterial and antioxidant activities. The obtained results revealed that AE and CS played distinctive functional roles as finishing agents in the cotton fabric treatment. The AE content in the pastes was positively correlated with a* and b* but negatively correlated with L*, and the presence of CS improved colorfastness against washing and light exposure. The fabrics printed with pastes containing ≥ 20% (w/v) AE and 2% (w/v) CS demonstrated significant antibacterial activity against Klebsiella pneumoniae and Staphylococcus aureus, while CS increased the activity resistance to washing. The fabrics printed with a paste containing 40% (w/v) AE exhibited an antioxidant capacity of ~ 70%. Thus, this study contributes to the field of sustainable textile functionalization and the use of plant extract – CS blends for screen printing.

Study on the prehistoric decorated spindle whorls in Haidai region of China

Spindle whorls are a kind of spinning tools of crucially important in prehistoric period. Haidai region is one of the main historical and cultural areas of prehistoric China, and had a relatively developed textile handicraft production, where a large number of spindle whorls were unearthed, including many decorated ones. In order to make clear the uses of the decorated spindle whorls and the meanings of the patterns on them, the data of prehistoric decorated spindle whorls unearthed in archaeological sites of the period from Beixin Culture to Yueshi Culture in Haidai region of China were collected and analyzed, and the morphological data (dimension and shapes) of them were compared with that of undecorated ones. The patterns on the decorated spindle whorls were analyzed and classified, and the characteristics of the patterns in different cultural periods were studied, and based on this, the purpose of making decorated spindle whorls and the function and meanings of the patterns were discussed. The results showed that the range of morphological data of the decorated spindle whorls in Haidai region is consistent with that of undecorated ones belonging to the same period and unearthed in the same site, while compared with undecorated spindle whorls, decorated ones are more affected by regional culture and thus show different features from the ones unearthed in other archaeological sites belonging to the same cultural period. It is concluded that the most basic function of the decorated spindle whorls should be as practical tools for normal spinning production, and the patterns on them should have multiple meanings such as practical, decorative, distinctive and symbolic. The study of decorated spindle whorls can help us understand the prehistoric regional culture in Haidai region.

Production of a Wood–Plastic Composite with Wastes from Disposable Masks and Corrugated Cardboard: A Sustainable Post-Pandemic Approach

The increasing demand for disposable textile products, personal care items, and electronic commerce has led to a substantial rise in waste generation, particularly from nonwoven fabric masks (wNWFs) and corrugated cardboard (wCC). This study assessed the feasibility of utilizing these waste materials, which were produced in significant amounts during the COVID-19 pandemic, as both a matrix and reinforcement filler in wood–plastic composites (WPCs). The WPC was fabricated using either two extrusion cycles or thermokinetic homogenization, with both processes being followed by hot pressing. The formulations consisted of virgin polypropylene (vPP), wNWF, and wCC in proportions of 45, 45, and 10 wt %, respectively. The results demonstrated that the composites produced via two extrusion cycles exhibited a tensile strength that was 85% higher and three-point flexural strength three times greater than those produced through thermokinetic homogenization. These findings contribute to advancements in scientific and technological knowledge and offer an efficient solution for managing these types of waste, which continue to be generated post-pandemic.

Extraction and characterization of bark fibers from Ethiopian Ficus thonningii tree

The growing environmental pollution issues by synthetic textile products demand sustainable natural textile alternatives. This paper aimed at extracting and characterizing a new fiber called Ficus thonningii fiber from Ficus thonningii trees found in Ethiopia to be used as a source of textile fiber for different applications. The study utilized water and chemical extraction with sodium hydroxide methods. Physical, mechanical, and chemical properties such as length, diameter, fineness, tenacity, moisture content, moisture regain, cellulose, hemicellulose, lignin, and ash content were characterized. The results revealed that Ficus thonningii fiber possesses comparable characteristics with jute, sisal, and flax fibers that can be used for different applications. The fiber exhibits tenacity of 39.65 cN, an elongation of 2.60%, a moisture content of 10.78%, and a moisture regain of 11.98% when extracted chemically. While it exhibits a tenacity of 37.83 cN, an elongation of 3.02%, a moisture content of 10.35%, and a moisture regain of 11.02% when extracted using water extraction method. Both extraction methods yield a fiber length of 101.50 mm. The chemical composition of the fiber obtained through water extraction consists of 52.35% cellulose, 19.20% hemicellulose, 17.20% lignin, and 1.20% ash. On the other hand, the chemical extraction method results in a composition of 63.57% cellulose, 16.10% hemicellulose, 12.10% lignin, and 0.83% ash. These results confirm the potential use of Ficus thonningii tree as a valuable source of coarse fibers for various technical textile applications.

Shielding Effectiveness of Textile Woven Fabric with Carbon Nanotubes Yarn

ABSTRACT This study explores the electromagnetic properties of flat textile products enhanced with carbon nanotube (CNT) threads used as the weft. CNT threads, fabricated via dry-spinning, were integrated into fabrics by wrapping them around steel threads to form a solenoid-like structure. To further improve electromagnetic attenuation, the CNT yarn was coated with graphene oxide and silver nanoparticles. The research assessed the impact of these modifications on the fabric’s ability to attenuate alternating electromagnetic fields across a range of frequencies. Results showed enhanced attenuation at 30 MHz and 500 MHz. CNT yarn wrapped around steel threads achieved attenuation efficiencies of 18 dB at 30 MHz and 22 dB at 500 MHz, with a notable 10 dB improvement at 30 MHz over the reference. Fabrics with CNT yarn coated with graphene oxide demonstrated similar performance to the reference fabric at 500 MHz and an 8 dB increase at 30 MHz. Similarly, CNT yarn with silver nanoparticles showed comparable performance at higher frequencies but matched the reference at 30 MHz. These results indicate significant enhancement at lower frequencies, with benefits diminishing at higher. This study underscores the potential of integrating CNTs and metal nanoparticles into textiles to improve electromagnetic shielding, especially across specific frequencies.

Magnetic Effects in Textile Fibers Filled with Nanoconstituents Based on Iron Oxides

ABSTRACT The paper proves the possibility of providing magnetic properties in the process of saturation of textile fibers with a nanomixture of divalent and trivalent iron oxides. The mechanisms of interaction of nanostructures with natural and synthetic fibers are analyzed. The peculiarities of the introduction of magnetic components into flax, cotton, polyamide, and polyester fibers are determined. The relative number of particles with nanoscale in the total was statistically proved. To evaluate the macro effects of saturation, the relative amount of the accumulated mixture of divalent and trivalent iron oxides was determined, taking into account the previous fiber weight. Two basic constants characterizing the properties of textile fibers to magnetic interaction are proposed. It is proved that flax fibers exhibit the highest magnetic efficiency. The average size of iron oxide nanoparticles is 80–90 nanometers, which is confirmed by studies using electron microscopy. The final magnetization of the obtained textile materials provides an attractive magnetization of 20–30 mPascal. The magnetic field of magnetic textile fibers acts at a height of up to 6–7 mm. The directions of the use of fibers with magnetic properties are shown as a prospect for the development of textile smart products.

Revolutionizing applications: the impact of controlled surface chemistry on marble powder.

A large amount of marble powder is abundantly available as a byproduct and waste in the marble industry, and its reinforcement has been attempted in several applications through surface modification. This article examines the use of MP in the production of rubber, paper, foam stabilizers, asphalt, paint, textiles, and adhesives. This article aims to provide a foundation for the surface modification of MP to enhance its properties and broaden its range of applications. Data on modifiers such as organic acids, coupling agents, polymers, and surfactants have been gathered, along with comprehensive reaction details for various techniques, including wet modification, dry modification, in situ modification, ultrasonication, and sol-gel methods. A general overview of MP modification and its impact on composite properties is provided in this review paper, mainly focusing on the distinctive features of composites, contemporary field challenges, and the correlation between the properties and applications of MP.

New Evidence for Prehistoric Textile Production and Social Complexity on the Southeastern Tibetan Plateau, Southwestern China

ABSTRACT This paper presents new discoveries of textile tools and fabric remains from the Yanyuan Basin, offering insights into textile production and social complexity on the southeastern Tibetan Plateau from the late 4th to the late 1st millennium b.c. The findings from the Yanyuan Basin, along with those from other parts of the region, indicate that spindle whorls have been used by individuals with diverse cultural traditions and of different social status since the Neolithic period. In the Bronze Age, clay whorls generally came from small and medium burials, likely associated with spinning workers. However, bronze textile tools were commonly found in large burials from the late Bronze Age, during which significant social stratification took place, and they were likely symbols of the wealth and high social status of the occupants. This study proposes that textile production changed from a household activity to a socially organized activity over time.

Effect of drop stitch height on the durability of 3D inflatable textile products

Effect of drop stitch height on the durability of 3D inflatable textile products

A Brief Review of Hemp Fiber Length Measurement Techniques

Accurate fiber length measurement is essential for the processing and quality management of textile products. This article reviews the current methods used to measure fiber length, including manual, photoelectric, capacitive, and optical techniques. Existing sample preparation processes for natural fiber characterization have been primarily developed for cotton and wool fibers. However, hemp fibers present unique challenges due to their greater length variability, high strength, and low elongation, making some traditional sample preparation methods less effective. Image processing offers a promising approach for scalable and precise measurement of hemp fiber length. Nevertheless, current image processing techniques are limited by the inability to effectively handle overlapping fibers, which increases both the time and cost of testing. Continued research into developing more advanced segmentation algorithms could lead to more widely adopted commercial methods for fiber measurement.

A quad-cliff mechanism for eco-printing by pounding technique: design, manufacturing, and testing

Indonesia produces many types of textile products, such as clothing and custom fabrics often with unique patterns. To generate the patterns, there are many methods, including eco-printing by pounding process. However, the process, which was later referred to as eco-pounding, requires much time and energy, which can have a negative impact, such as musculoskeletal disorders, on the human body. To address this issue, the present work proposes a machine that can help the process of eco-pounding. Shigley’s method is applied to guide the design process of the machine. The design and manufacturing processes of the eco-pounding machine are presented, in which three machine design models are first introduced and then analyzed for finalization by benchmarking method. Subsequently, a machine model that uses a so-called quad-cliff mechanism is selected for manufacturing and testing. As a result, the proposed machine can achieve the design requirements that were set. Three pounding movements per second can be obtained by the machine, with possible increases by an engine upgrade. This machine can be considered a prototype for a semi-automatic eco-printing process by pounding technique.

Study on the Effect of Natural dyes and Synthetic dyes on Textile Fabric

Natural dyes are very useful for dyeing textile fibre. Natural dyes have been used for long back. In the Mughal regime, it was found that natural dyes were used to dye textile materials. Starting from the Muslin to the household textiles the use of natural dyes was significant. For more than a hundred years, it was evident that synthetic dyes become popular for dyeing textile material. Natural dyes for jamdani sarees are not easily available in Bangladesh. These dyes are imported from outside of Bangladesh and for this reason, this type of dyes is not available in the local market. But at the same time, the risk of using synthetic dyes is high for human health because of cause different health hazards like breathing problems, skin diseases and skin cancer. Compared to synthetic dyes natural dyes are not easily available and they are costly at the same time. The unavailability of natural dyes made the use of synthetic dyes more popular among the manufacturers of textile products. Though natural dyes are sustainable, due to unavailability and high cost it is hindering the acceptance to use natural dyes. In this study, it was evident that natural dyes normally have significant eco-friendly properties especially the absence of banned amines compared to synthetic dyes. It was found that synthetic dyes have banned amines.

The Environmental and Social Impacts of Fast Fashion on Youth: A Statistical Analysis

This abstract presents a concise overview of the research conducted on the impact It has gained significant popularity among young consumers due to its affordability and accessibility. However, this abstract highlights the adverse effects of fast fashion on youth in various aspects, including environmental sustainability, labor rights, and psychological well-being. The first section explores the environmental consequences of fast fashion. It discusses the excessive consumption and disposal of clothing, leading to significant resource depletion, pollution, and landfill waste. The detrimental effects of textile production, such as water pollution and greenhouse gas emissions, are also examined. Moreover, the concept of planned obsolescence and its contribution to a throwaway culture are discussed, emphasizing the need for sustainable alternatives. Fast fashion is being recognized as a prominent force in today's swiftly expanding fashion business, revolutionizing the way young people consume and engage with apparel. manufacturing and consumption of stylish, inexpensive clothing that are frequently inspired by runway trends and popular culture. While fast fashion is currently rising in popularity among young people throughout the world, its influence reaches far beyond passing fashion fads. implications of rapid fashion on teenage behavior, environment, and general well-being. Fast fashion is linked to unsustainable manufacturing and consumption practices, which cause severe environmental destruction. Fast fashion's environmental repercussions and lingering impacts on the earth, including as depletion of resources, and trash creation, can be illuminated through research. Fast fashion is based on low-cost production, which is frequently done in underdeveloped nations where workers endure terrible working conditions and low salaries. Learning about the social and economic repercussions on teenagers in these places can help improve working conditions and promote fair trade practices. In this research we will be using Statistical Package for Social Sciences (SPSS). As per the SPSS Analysis we get to know that in Reliability Statistics Cronbach’s Alpha is 0.784, Cronbach's Alpha Based on Standardized Items is 0.790 and Number of Items is 7. From the above results I conclude that in Reliability Statistics Cronbach’s Alpha is 0.784, Cronbach's Alpha Based on Standardized Items is 0.790 and Number of Items is 7.

Textile Recycling: Efficient Polyester Recovery from Polycotton Blends Using the Heated High-Ethanol Alkaline Aqueous Process.

Textile production has doubled in the last 20 years, but only 1% is recycled into new fibers. It is the third largest contributor to water pollution and land use, accounting for 10% of global carbon emissions and 20% of clean water pollution. A key challenge in textile recycling is blended yarns, such as polycotton blends, which consist of polyester and cotton. Chemical recycling offers a solution, in particular, alkali treatment, which hydrolyzes polyester (PET) into its components while preserving cotton fibers. However, conventional methods require high temperatures, long durations, or catalysts. Our study presents, for the first time, the heated high-ethanol alkaline aqueous (HHeAA) process that efficiently hydrolyzes PET from polycotton at lower temperatures and without a catalyst. A near-complete PET hydrolysis was achieved in 20 min at 90 °C, while similar results were obtained at 70 °C and 80 °C with longer reaction times. The process was successfully scaled at 90 °C for 20 min, and complete PET hydrolysis was achieved, with a significantly reduced liquid-to-solid ratio, from 40 to 7 (L per kg), signifying its potential to be implemented in an industrial context. Additionally, the cotton maintained most of its properties after the treatment. This method provides a more sustainable and efficient approach to polycotton recycling.

By-product distribution and cytotoxicity assessment of ZnO-assisted photocatalytic degradation of reactive blue 250 dye

This research examined the effectiveness and feasibility of utilizing ultraviolet (UV) assisted photo-catalysis to treat wastewater effluents from textile production containing reactive blue 250 (RB 250) dye. Molecular oxygen and active species like O2•−, HO2•, H2O2 and •OH play crucial roles in the degradation process. Additionally, the degradation of dyes is influenced by several factors, including dye concentration, duration of UV irradiation, pH levels, concentration of H2O2, and the catalyst. The concentration of H2O2 and catalyst dose for the decolorization was studied at 0.6 mL and 0.5 g respectively. The discoloration was higher at low dye concentration, high H2O2 concentration, acidic conditions and high catalyst concentration. The maximum degradation (97 %) of RB 250 dye was obtained in the presence of zinc oxide nanoparticles within 90 min. The extent of decolorization of the dye was determined by UV–Vis spectroscopy. Fourier transform infrared spectroscopy (FTIR) was employed to analyze the changes in functionalities after degradation. The disappearance of characteristic peaks associated with specific groups within the dye molecule confirmed the extensive degradation of RB 250 dye. LCMS analysis was conducted to examine the intermediates and a mechanistic degradation pathway was subsequently proposed. The cytotoxicity of the irradiated dye samples was evaluated through a hemolytic test both pre and post-treatment. The findings suggest that the UV/H2O2/ZnO treatment represents a promising approach for effectively degrading RB 250 dye.

An overview of technological challenges in implementing the digital product passport in the textile and clothing industry

Abstract The textile and clothing industry is undergoing a shift towards a circular business model, driven by new European Commission regulations, which mandates that by 2030, textile products available on the European Union (EU) market must be recyclable and sustainable. To facilitate data collection, storage, and sharing throughout the entire product lifecycle and ensure product traceability and sustainability, the use of Digital Product Passports (DPPs) will be required. This article presents an analysis of the most commonly known digital data technologies from the perspective of their use in digital garment labelling, describing their advantages and limitations. The analysis is complemented by practical insights gathered from semi-structured interviews with garment producers in the Baltic Sea region. The survey revealed that producers prioritise sustainability and are prepared to digitise product information but are awaiting EU’s clear guidance. Despite the challenges posed by DPP implementation from the global, producer, and customer perspectives, upcoming regulations are seen as providing new competitive opportunities for products and services. Both the technology analysis and the expert survey indicate that QR (quick response)-based smart tags are potentially the most straightforward solution for the initial phase of DPP implementation.