Your search keyword '"Textile"' showing total 22,385 results

1. Self-Sufficient and Responsive Textile Component

Author

Gibilisco, Giovanni, Monteleone, Angelo, Rodonò, Gianluca, Sapienza, Vincenzo, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Corrao, Rossella, editor, Campisi, Tiziana, editor, Colajanni, Simona, editor, Saeli, Manfredi, editor, and Vinci, Calogero, editor

Published

2025

2. Diversified applications of coarse wool in various technical and industrial sectors: A review

Author

Kadam, Vinod, Jose, Seiko, Kumar, Ajay, and Kumar, Arun

Published

2024

3. The agency of object: the <italic>doppa</italic> as a narrator for a dynamic Uyghur identity.

Author

Amerasinghe, Shalini

Subjects

*UIGHUR (Turkic people), *CULTURAL identity, *MATERIAL culture, *VISUAL culture, *INTELLECTUAL life

Abstract

This article explores the Uyghur doppa from the late nineteenth and early twentieth centuries to understand Uyghur cultural life and identity. It links the doppa to Uyghur history and the evolving sense of ‘Uyghurness’, reflecting its cultural significance today, both in Xinjiang and through the diaspora. The limited scholarly work on the doppa, spanning 150 years, suggests a gender bias in documenting female-associated crafts. Ironically, at a time when the doppa holds increasing importance, especially with the creation of Doppa Day (5 May), this lack of resources opens up space for creative discourse on Uyghur identity. The study also reveals a tendency to adapt through cultural experiences while maintaining a deep connection to the homeland. Ultimately, this research demonstrates how a small cultural object can provide profound insights into community sensibilities and material culture. [ABSTRACT FROM AUTHOR]

Published

2024

4. Motion Tape Strain During Trunk Muscle Engagement in Young, Healthy Participants.

Author

Spiegel, Spencer, Wyckoff, Elijah, Barolo, Jay, Lee, Audrey, Farcas, Emilia, Godino, Job, Patrick, Kevin, Loh, Kenneth J., and Gombatto, Sara P.

Abstract

Background: Motion Tape (MT) is a low-profile, disposable, self-adhesive wearable sensor that measures skin strain. Preliminary studies have validated MT for measuring lower back movement. However, further analysis is needed to determine if MT can be used to measure lower back muscle engagement. The purpose of this study was to measure differences in MT strain between conditions in which the lower back muscles were relaxed versus maximally activated. Methods: Ten participants without low back pain were tested. A matrix of six MTs was placed on the lower back, and strain data were captured under a series of conditions. The first condition was a baseline trial, in which participants lay prone and the muscles of the lower back were relaxed. The subsequent trials were maximum voluntary isometric contractions (MVICs), in which participants did not move, but resisted the examiner force in extension or rotational directions to maximally engage their lower back muscles. The mean MT strain was calculated for each condition. A repeated measures ANOVA was conducted to analyze the effects of conditions (baseline, extension, right rotation, and left rotation) and MT position (1–6) on the MT strain. Post hoc analyses were conducted for significant effects from the overall analysis. Results: The results of the ANOVA revealed a significant main effect of condition (p < 0.001) and a significant interaction effect of sensor and condition (p = 0.01). There were significant differences in MT strain between the baseline condition and the extension and rotation MVIC conditions, respectively, for sensors 4, 5, and 6 (p = 0.01–0.04). The largest differences in MT strain were observed between baseline and rotation conditions for sensors 4, 5, and 6. Conclusions: MT can capture maximal lower back muscle engagement while the trunk remains in a stationary position. Lower sensors are better able to capture muscle engagement than upper sensors. Furthermore, MT captured muscle engagement during rotation conditions better than during extension. [ABSTRACT FROM AUTHOR]

Published

2024

5. 纺织基柔性传感器件的研究与应用进展.

Author

王公海, 付少举, and 何鑫

Abstract

Copyright of China Textile Leader is the property of China Textile Information Center and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

6. Side Illumination Behavior and Mechanical Properties of Twisted End‐Emitting Polymer Optical Fiber Bundles.

Author

Zhang, Xiuling, Yang, Kai, Kremenakova, Dana, and Militky, Jiri

Subjects

*OPTICAL fibers, *SPINNING (Textiles), *TEXTILE fibers, *LIGHT intensity, *LIGHTING

Abstract

Polymer optical fibers (POFs), including side‐emitting POF (SEPOF) and end‐emitting POF (EEPOF) are developed for luminous textiles. The SEPOF is more common for usage but suffers from significant intensity decay, which limits its effective usage length. In contrast, the EEPOF can provide a much more stable side illumination behavior than SEPOF since the light is largely confined within the EEPOF, while its side illumination requires special treatment. In this work, 0.5 mm diameter EEPOFs were firstly assembled into bundles with 10 EEPOFs (B10) and 15 EEPOFs (B15), and then twisted. The morphology, tensile properties, and side illumination behavior of the twisted EEPOF bundles are evaluated. With an increased twisting degree, the initial modulus of twisted sample B10 increases (due to shortening of bundle diameter) from 1.06 to 1.17 GPa while the initial modulus of twisted sample B15 decreases from 1.01 to 0.91 GPa. The increased twisting degree also results in the higher flexibility (indirectly connected with modulus) of the twisted EEPOF bundles. Besides, the increased twisting degree results in a higher side illumination intensity meantime causes a decreased side illumination intensity along the light penetration path. When the twisting degree is low (e.g., 10 T m−1), the highest decrease rate of side illumination intensity along the light penetration path is found. [ABSTRACT FROM AUTHOR]

Published

2024

7. Synthesis of Ultrathin Film PEGDMA Hydrogels Coated onto Different Surfaces by Atmospheric Pressure Plasma: Characterization and Potential Features for the Biomedical Field.

Author

Sans, Jordi, Azevedo Gonçalves, Ingrid, Cardenas‐Morcoso, Drialys, and Quintana, Robert

Subjects

*ATMOSPHERIC pressure plasmas, *THIN films, *ETHYLENE glycol, *TECHNOLOGY transfer, *PLASMA deposition

Abstract

The preparation of resistant ultrathin film (utf) hydrogels coated onto different working surfaces (e.g., fabrics) is paying increasing attention as an advantageous strategy for customizing their resultant properties. More specifically, poly(ethylene glycol) (PEG)‐based utf‐hydrogels are relevant for their superior biocompatibility or antibiofouling properties. However, promoting the generation of poly(ethylene glycol) dimethacrylate (PEGDMA) cross‐links ideally without the use of initiators or other cross‐link agents, which might compromise the final bioactivity of the system, is complicated. Moreover, the actual synthesis techniques used for the preparation of such utf‐hydrogels face important drawbacks like high scale‐up costs or important geometrical restrictions, completely hindering its technological transfer. Herein, for the first time and easy and technologically scalable technology is reported for the synthesis and direct deposition of PEGDMA400 utf‐hydrogels onto different substrates based on atmospheric pressure nanosecond pulsed plasma approach. The advantages of the technology are explored and discussed, reporting the ready‐to‐use transparent coating of fabrics. After washing the samples using washing programs of a commercial laundry machine, coatings are still well adhered, showing excellent stability. Finally, the resultant properties of PEGDMA400 utf‐hydrogels are exhaustively characterized using in operando conditions in order to elucidate their potential capabilities in the biomedical field. [ABSTRACT FROM AUTHOR]

Published

2024

8. Water Repellent Coating in Textile, Paper and Bioplastic Polymers: A Comprehensive Review.

Author

Rungruangkitkrai, Nattadon, Phromphen, Phannaphat, Chartvivatpornchai, Nawarat, Srisa, Atcharawan, Laorenza, Yeyen, Wongphan, Phanwipa, and Harnkarnsujarit, Nathdanai

Subjects

*WATER repellents, *COATED textiles, *SUSTAINABLE development, *SURFACE coatings, *RESEARCH & development

Abstract

Water-repellent coatings are essential for enhancing the durability and sustainability of textiles, paper, and bioplastic polymers. Despite the growing use of sustainable materials, their inherent hydrophilicity presents significant challenges. This review explores advanced coating technologies to address these issues, focusing on their mechanisms, properties, and applications. By imparting water resistance and repellency, these coatings improve material performance and longevity. The environmental impact and limitations of current coatings are critically assessed, highlighting the need for sustainable solutions. This review identifies key trends and challenges, offering insights into developing water-resistant materials that align with environmental goals while meeting industry demands. Key focus areas include coating mechanisms, techniques, performance evaluation, applications, environmental impact assessment, and the development of sustainable coating solutions. This research contributes to the development of water-resistant materials that meet the demands of modern industries while minimizing environmental impact. [ABSTRACT FROM AUTHOR]

Published

2024

9. Rapid and Accurate Identification of Dyes on Ancient Textiles by SERS With a Negligibly Invasive Approach.

Author

Xi, Xiao‐Han, Zhang, Yun, Yan, Sen, Wang, Ping‐Shi, Ma, Hao, Ren, Meng, Liu, Guo‐Kun, Lei, Yong, Ren, Bin, and Wang, Xiang

Abstract

ABSTRACT Nowadays, surface‐enhanced Raman spectroscopy (SERS) has become a powerful tool for rapidly detecting and analyzing textile cultural relics due to its ability to provide chemical information with single‐molecule sensitivity. However, preserving a high level of detection sensitivity while avoiding sample damage remains a persistent challenge. In this work, we developed a SERS approach with both microextraction and detection functions. The alcohol–water droplet with iodide‐modified Au nanoparticles (AuIMNPs) is directly dropped on the textile, where dyes strongly bound on textiles can be extracted by ethanol (EtOH). As a result, the sample can be well preserved from being damaged. In particular, the volatility of EtOH allows the molecules to be captured in the hot spots through the capillary effect during droplet evaporation, resulting in a dramatic increase in Raman signal intensity. This highly sensitive strategy can be used to measure dyes in plant extracts and mock‐up textiles. Furthermore, the capability of SERS to provide fingerprint information allows us to distinguish different dyes in overdyeing textiles. Eventually, this approach is successfully applied to identify dyes of authentic ancient Chinese textiles. This rapid, universal, and negligibly invasive approach provides a powerful way to study textile cultural relics. [ABSTRACT FROM AUTHOR]

Published

2024

10. Pursuing Equity, Diversity, and Inclusion in Collection Development: A Textile Museum of Canada Case Study.

Author

Brucculieri, Julia, Krmpotich, Cara, and Shaughnessy, Roxane

Subjects

*DIGITAL technology, *FOCUS groups, *BEST practices, *DECOLONIZATION, *MUSEUMS

Abstract

The Textile Museum of Canada (the Textile Museum) is pursuing institutional change with a goal to meaningfully address and redress absences in its permanent collection of over 15,000 textiles. To support this goal, the Textile Museum developed a Collection Development Plan guided by emerging best practices supporting Equity, Diversity, and Inclusion in museums, research into the institution's historical and existing collecting practices and policies, and focus group sessions and interviews with members of multiple communities. These actions led to a series of recommendations for the Textile Museum to implement. Being represented within the Textile Museum's collection matters to people, and our findings encourage the institution to value intangible heritage (not only material objects), and to care for collections in ways that enliven them through connections with people in storage, exhibition, and digital spaces. This case study presents the origins, process, and outcomes of this ongoing work to institutionalize new practices and imperatives holistically across departments. [ABSTRACT FROM AUTHOR]

Published

2024

11. Alcohol Use Disorder Among Textile Workers: Evidence from Ethiopia.

Author

Belete, Habte, Belete, Tilahun, Bacharach, Samuel, Briggs, Kathleen Ann, and Bamberger, Peter

Subjects

*ALCOHOLISM, *TEXTILE workers, *LOGISTIC regression analysis, *ALCOHOL drinking, DEVELOPING countries

Abstract

Little is known about its prevalence of Alcohol Use Disorder (AUD) and its work-based etiology among employed adults in developing countries. To address this knowledge gap, we surveyed a total of 423 Ethiopian textile workers (of whom 313 were non-abstaining) assessing AUD. Using the Alcohol Use Disorders Identification Test or "AUDIT" and categorizing an AUD as any AUDIT score of 16 or greater, the prevalence of AUD was estimated at 4.3% among overall participants and 5.8% among non-abstainers. Logistic regression analysis identified younger age, work-related disability, and stress as significantly associated with AUD. Given the link between these potential work-related risk factors and AUD, the findings suggest that alcohol use prevention programs such as peer-led counseling and/or Employment Assistance Programs, along with brief interventions, may be useful in addressing potential AUD risk factors, reducing AUD prevalence and associated sequaelae, and treating workers with AUD in developing countries. [ABSTRACT FROM AUTHOR]

Published

2024

12. GB/T 17592《纺织品 禁用偶氮染料的测定》 新、旧标准比对.

Author

张秀虹

Abstract

Copyright of China Fiber Inspection / Zhongguo Xian-Jian is the property of China Fiber Inspection and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

13. Designing hierarchical structures for innovative cooling textile.

Author

Du, Xiran, Li, Jinlei, Zhu, Bin, and Zhu, Jia

Subjects

THERMAL comfort, HEAT transfer, HUMAN body, HUMAN comfort, ENERGY consumption

Abstract

The potential of personal cooling technologies in reducing air conditioning energy consumption and enhancing human thermal comfort is substantial. This review focuses on recent advancements in hierarchical structure design for innovative cooling textiles. Beginning with insights into fundamental heat transfer processes between the human body, textile, and the surroundings, we uncover key control mechanisms. Then the advanced hierarchical structure designs enabling effective radiation, sweat evaporation, conduction management, and integration of cold energy sources for realizing effective human body cooling are systematically summarized. Additionally, we explore multifunctional designs beyond cooling, including switchable cooling-heating and sensing. Finally, we engage in discussions on unifying cooling performance tests and additional multiple requirements to make strides toward practical applications. This review is anticipated to be a valuable resource, providing the scientific and industrial communities with a quick grasp of past advancements, current challenges, and future directions in achieving effective human body cooling. [ABSTRACT FROM AUTHOR]

Published

2024

14. Effect of carbon nanotubes on the dielectric properties of spandex fabric.

Author

Mukherjee, Prabir K., Barman, Sajal, and Mahish, Sudipta S.

Abstract

Effect of carbon nanotubes (CNTs) on the dielectric properties of spandex fabric is studied theoretically. The frequency and CNTs dependence of the real and imaginary part of the complex dielectric permittivity are calculated and compared with experimental results of spandex fabric. An appreciable change in the dielectric permittivity has been observed for CNTs doped spandex fabric. Good agreement between theoretical and experimental results is observed. [ABSTRACT FROM AUTHOR]

Published

2024

15. Wastewater monitoring system in the textile industry.

Author

Raditya, Murry, Pratama, I. Putu Eka Widya, Bagastyo, Arseto Yekti, Nurhayati, Ervin, and Kalahari, Bintang

Subjects

INDUSTRIAL wastes, LIQUID crystal displays, COMPUTER network traffic, REDUCTION potential, TEMPERATURE sensors

Abstract

Recently, a problem which often experienced by the Environmental Agency is to monitor the quality of industrial waste. The problem comes from manual monitoring of wastewater and the high cost of laboratory tests for each variable for the waste. This system is intended to develop a wastewater monitoring system considering the state of the environment and technology. This system uses 5 types of sensors to measure the quality of wastewater. The sensor will display measurement data both offline via liquid crystal display (LCD) and online via the website. For the pH sensor test, we obtained an error value approximately of 1.32% and accuracy of 98.68%. For the oxidation reduction potential (ORP) sensor test, we obtained an error value of 1.4% with 98.6% accuracy. We obtained an error value of 0.22% with 99.78% accuracy for the temperature sensor test. For the total dissolved solid (TDS) sensor test, we obtained an error value of 1.02% with 98.98% accuracy. The color sensor is validated using a spectrometer to measure the variation of color in remazol waste concentration. For the Client - Server communication test, the system has a delay of 2 seconds. One of the advantages of using a web server is the system has minimum network traffic. [ABSTRACT FROM AUTHOR]

Published

2024

16. Indonesian women's preferences regarding robe: Naisha Hijrah's production matches future customers' desires.

Author

Sumiyana, Sumiyana and Prasetya, Andhika Oktafatria

Subjects

ROBES, WOMEN'S clothing, CONSUMER preferences, ISLAMIC clothing & dress, TEXTILES

Abstract

The Indonesian textile industry grew by 15.35 per cent in 2019, whereas previously, it had only seen a growth of around 8.73 per cent. As a result, it occurred to the textile and apparel manufacturers that they needed to enlarge their business lines swiftly. Naisha Hijrah, a designer, producer and textile retailer, sells clothes based on Islamic styles with a post-modernist concept. This study elaborates on how Naisha Hijrah has met its customers' needs. It also analyses why Naisha Hijrah could become the leading producer and retailer. Naisha Hijrah initially captured the Arabian clothes. This research shows that Naisha's products have attributes that include crease-free fabric, strong seams, unnoticed fabric fibres, cut patterns, delicate stitching and a design that permits the wearer to perform their ablutions without removing the garment. On the other hand, the technical qualities include many of Naisha's prioritized fabrics, such as Balotelli and Toyobo, accompanied by zippers designs. Therefore, Naisha develops its product that focuses on technical attributes that Indonesian women prioritize to fulfil their future desires. Finally, this study suggests that Naisha's robes should combine several kinds of materials in each garment, improve the tailors' skills, ensure no defects in its production and continuously push the workers to make firmer and smoother stitches. Therefore, Naisha Hijrah should increase sales because it sells what Indonesian women need and love. All this implies that it could be the leading retailer of Islamic fashion items. [ABSTRACT FROM AUTHOR]

Published

2024

17. Sustainable Textile Manufacturing with Revolutionizing Textile Dyeing: Deep Learning-Based, for Energy Efficiency and Environmental-Impact Reduction, Pioneering Green Practices for a Sustainable Future.

Author

Yılmaz, Kübra, Aksu, İnayet Özge, Göçken, Mustafa, and Demirdelen, Tuğçe

Abstract

The textile industry, a substantial component of the global economy, holds significant importance due to its environmental impacts. Particularly, the use of water and chemicals during dyeing processes raises concerns in the context of climate change and environmental sustainability. Hence, it is crucial from both environmental and economic standpoints for textile factories to adopt green industry standards, particularly in their dyeing operations. Adapting to the green industry aims to reduce water and energy consumption in textile dyeing processes, minimize waste, and decrease the carbon footprint. This approach has become crucial in achieving sustainability in textiles following the signing of the Paris Climate Agreement. Important elements of this transformation include the reuse of washing waters used in the dyeing process, the recycling of wastewater, and the enhancement of energy efficiency through necessary methodological and equipment changes. This study analyzes the energy, labor, production, and consumption data since 2011 for a textile factories with four branches located in the Adana Organized Industrial Zone. Among these factories, the one designated as UT1, which has the highest average energy and water consumption compared to the other three branches, is selected. In recent years, the use of artificial intelligence and machine learning technologies in predicting industrial processes has been increasingly observed. The data are analyzed using LSTM (Long Short-Term Memory) and ANN (Artificial Neural Networks) forecasting methods. Particularly, the LSTM algorithms, which provided the most accurate results, have enabled advanced forecasting of electricity consumption in dyeing processes for future years. In 2020, electricity consumption was recorded as 3,717,224 kWh and this consumption was reflected in the total energy cost as TRY 1,916,032. Electricity consumption accounts for 22.34% of total energy consumption, while the share of this energy type in the cost is 43.25%. In the light of these data, the MAPE value for energy consumption forecasts using the LSTM model was 0.45%, which shows that the model is able to forecast with high accuracy. As a result, a solar power plant was installed to optimize energy consumption, and in 2023 60% energy savings were achieved in summer and 25% in winter. The electricity consumption forecasting results have been an essential guide in planning strategic initiatives to enhance factory efficiency. Following improvement efforts aimed at reducing energy consumption and lowering the carbon footprint, significant optimizations in processes and layouts have been made at specific bottleneck points within the facility. These improvements have led to savings in labor, time, and space, and have reduced unit production costs. [ABSTRACT FROM AUTHOR]

Published

2024

18. Scalable Crystalline Silicon Photovoltaic Fibers for Electronic Textile Applications.

Author

Jin, Michael H.‐C., Currano, Luke J., Rojas, Vanessa O., Jacque, Evan D., Korneisel, Richard A., Fairbanks, Nathan J., Freeman, Adam W., Trethewey, Bruce R., Glaros, Benjamin H., Carkhuff, Bliss G., and Gerasopoulos, Konstantinos

Subjects

*SILICON solar cells, *TEXTILE fibers, *SOLAR technology, *FLEXIBLE printed circuits, *ELECTROTEXTILES

Abstract

This study presents a novel method to fabricate scalable photovoltaic fibers (PVFs) by leveraging crystalline silicon (c‐Si) solar cell technology, known for its high‐power conversion efficiency (PCE), stable performance, and low cost. The c‐Si PVF is built on a flexible circuit strip as narrow as 400 µm, and c‐Si cells as small as 0.35 mm2 are surface‐mounted on the strip. The cells are diced from an interdigitated back‐contact c‐Si solar cell (≈153 cm2). A c‐Si PVF including a 1 mm2 cell reaches PCE up to 9.6% and 11.0% under simulated AM 1.5G illumination without and with encapsulation, respectively, the highest reported for c‐Si PVFs, while a 1.5 ft‐long fiber produces ≈37 mW m−1. Additionally, the PVF can tolerate bending fatigue with no sign of performance loss after 8000 bending cycles. To demonstrate practical applicability, the c‐Si PVFs are also woven into textile swatches. They deliver ≈10 mW cm−2 under a halogen lamp and successfully power a light‐emitting‐diode. This PVF technology is scalable with regards to both achieving thin fibers and its compatibility with roll‐to‐roll fabrication processes. The fiber concept presented here can also be extended to any chip‐scale surface mountable devices, enabling cell‐agnostic fiber technologies for multifunctional electronic textiles. [ABSTRACT FROM AUTHOR]

Published

2024

19. A fabric from the Hallstatt period yet unseen in Central Poland – some remarks on the find from Dąbrowa, Wieluń County.

Author

Janiak, Radosław and Słomska-Bolonek, Joanna

Subjects

*TRADE routes, *SOCIAL status, *WATERSHEDS, *UPPER class, *WEAVING, *TOMBS

Abstract

During excavations carried out in 2023 at the cemetery of the Lusatian culture in Dąbrowa, site 2, Wieluń County, an urnless cremation burial was discovered (Object 24), which is dated generally to the Hallstatt period. Burnt human bones were scattered throughout the object, which form a relatively compact cluster in the central part of the grave. Ceramic fragments from various vessels were found in the fill of the grave cavity. Metal objects, both bronze and iron, showed signs of being smoldered in the fire. This fosters the conclusion that they had been burned with the deceased on the pyre and placed in the grave together with burned human bones. At the same time, such a state of preservation of the grave offerings made it impossible to specify the dating of the tomb. Within the grave, a fragment of an iron plate was found, on which mineralized remains of fabric were preserved. Technological analysis showed that it was a half-basket weave fabric of a very high quality, made of thin z-single yarn (0.25–0.30 mm and 0.40–0.50 mm) and of surprisingly high thread count (32–34/12–14 threads per cm). In the basin of the Vistula and the Oder rivers, none of the fabrics discovered so far had similar parameters. On the other hand, textiles from the main canters of weaving production at the time, such as the Hallstatt culture and the Scandinavian area, showed similar characteristics, but only in rare examples. This highlights the importance of the weaving product presented here. It is difficult to answer conclusively whether we are dealing in this case with an imported object or one produced in a local weaving workshop, although much points to the first option. Given the context of the find and the accompanying offerings, it can be assumed that the fabric belonged to a person of a higher social status. The local community’s custom of accumulating and then depositing imported items of quality into graves also makes such a hypothesis plausible. On the other hand, certain foreign patterns were adopted and creatively developed in local craft workshops of the Lusatian Culture. Most likely, involvement in long-distance trade routes allowed this society to achieve a high position in the aforementioned exchange. It was important to settle and control areas located in the basin of the upper Warta and Prosna rivers, i. e., on the southern borderlands of central Poland. It was here, through Silesia, that foreign patterns flowed in, which were then transmitted further along the Warta river basin in the northern direction, towards the “Lusatian interior”. The communication route created for the Baltic amber trade played an important role here. Finds of this raw material were recorded both in the Hallstatt circle, in areas of northern Italy, and present-day Slovenia. [ABSTRACT FROM AUTHOR]

Published

2024

20. Enhancing Fire Safety and Softness: Efficacy of Ethanolamine Polyphosphate as a Fire Retardant for Textiles.

Author

Li, Hongyang, Wang, Cheng, Chen, Hengqi, Oliver, Susan, Wang, Wei, and Lei, Lei

Subjects

*HEAT release rates, *COTTON textiles, *FIRE prevention, *AQUEOUS solutions, *SMOKING statistics, *FIREPROOFING agents

Abstract

The rising awareness of fire safety among consumers has driven the demand for fire retardants (FRs) that are both cost‐effective and efficient across various industries, particularly in textiles. Traditional FRs often compromise fabric softness, resulting in undesirable tactile texture and stiffness changes. While the external addition of softeners can mitigate the stiffness, it may introduce issues such as a greasy texture and increased flammability. This study introduces ethanolamine polyphosphate (EAPP), an innovative organic polyphosphate, as an effective fire retardant that preserves the softness of textiles. Comprehensive evaluations are conducted on EAPP‐treated textiles, revealing significant improvements in fire retardancy without compromising fabric quality. EAPP treatment (15 wt.% aqueous solutions) increases the limiting oxygen index (LOI) of pure cotton textiles from 17% to 36% and significantly reduces the peak heat release rate (pHRR) and total smoke rate (TSR) as measured by cone calorimetry. Unlike conventional FR products that form FR‐salt crystal particles on the fabric surface after drying, EAPP forms a smooth FR protective layer on the fabric, enhancing mechanical fastness and maintaining tactile qualities. These findings highlight EAPP's potential as a non‐washing durable, spray‐on fire retardant solution for textiles, combining safety with user comfort. [ABSTRACT FROM AUTHOR]

Published

2024

21. Bisphenols in daily clothes from conventional and recycled material: evaluation of dermal exposure to potentially toxic substances.

Author

Jurikova, Martina, Dvorakova, Darina, Bechynska, Kamila, and Pulkrabova, Jana

Subjects

LIQUID chromatography-mass spectrometry, TOXIC substance exposure, ENDOCRINE disruptors, BISPHENOLS, FOOD safety

Abstract

Given the increasing concern about chemical exposure from textiles, our study examines the risks of dermal exposure to bisphenol A (BPA), bisphenol S (BPS), bisphenol B (BPB) and bisphenol F (BPF) from conventional and recycled textiles for adults, aiming to obtain new data, assess exposure, and evaluate the impact of washing on bisphenol levels. A total of 57 textile samples (33 from recycled and 24 from conventional material) were subjected to ultrasound-assisted extraction (UAE) followed by ultra-high performance liquid chromatography with tandem mass spectrometry analysis (UHPLC-MS/MS). The BPA and BPS concentrations varied widely (BPA: < 0.050 to 625 ng/g, BPS: 0.277–2,474 ng/g). The median BPA content in recycled textiles (13.5 ng/g) was almost twice as high as that of 7.66 ng/g in conventional textiles. BPS showed a median of 1.85 ng/g in recycled textiles and 3.42 ng/g in conventional textiles, indicating a shift from BPA to BPS in manufacturing practices. Simulated laundry experiments showed an overall reduction in bisphenols concentrations after washing. The study also assessed potential health implications via dermal exposure to dry and sweat-wet textiles compared to a tolerable daily intake (TDI) of 0.2 ng/kg bw/day for BPA set by the European Food Safety Authority (EFSA). Exposure from dry textiles remained below this threshold, while exposure from wet textiles often exceeded it, indicating an increased risk under conditions that simulate sweating or humidity. By finding the widespread presence of bisphenols in textiles, our study emphasises the importance of being aware of the potential risks associated with recycling materials as well as the benefits. [ABSTRACT FROM AUTHOR]

Published

2024

22. Association between personal attenuation rating with types of earplugs and noise exposure levels in a textile factory in China.

Author

Fu, Shaojie, Huang, Lang, Zhong, Xi, Su, Shibiao, Li, Xiang, Huang, Qifan, Xia, Bing, Zhu, Jiawei, and Zhang, Meibian

Abstract

AbstractObjectiveDesignStudy sampleResultsConclusionsTo investigate the effects of earplug type and noise exposure level on textile workers' personal attenuation rating (PAR).Initial and follow-up visits were conducted at a 17-month interval. At each visit, a baseline HPD fit test was performed using either a 3M foam or pre-molded earplug, as chosen by the workers. Workers who failed to meet targeted levels were trained and retested. Once they failed again, the other earplug was selected, and training was provided until they achieved the PAR target.192 textile workers into three noise exposure level groups (low, medium, high).The median baseline PAR was 10 dB at the initial visits and 13 dB at the follow-up visits, and obtained by foam earplug users was 20 dB, which was higher than that obtained by pre-molded earplug users [12 dB (95% CI, 10–15 dB)]. The highest median baseline PAR was obtained by the high noise level group, followed by the median and low noise level groups. Training significantly increased the PAR.Multiple types of earplugs need to be offered to workers to deal with individual differences in attenuation, preferences, and exposure levels. Training and stricter compliance policies can improve HPD use and fitting, contributing to better hearing health. [ABSTRACT FROM AUTHOR]

Published

2024

23. Body‐Integrated Ultrasensitive All‐Textile Pressure Sensors for Skin‐Inspired Artificial Sensory Systems.

Author

Wang, Bingjun, Shi, Yuanhong, Li, Haotian, Hua, Qilin, Ji, Keyu, Dong, Zilong, Cui, Zhaowei, Huang, Tianci, Chen, Zhongming, Wei, Ruilai, Hu, Weiguo, and Shen, Guozhen

Subjects

*SPORTS sciences, *WEARABLE technology, *DETECTION limit, *SOCIAL interaction, *ROBOTICS

Abstract

Tactile sensing plays a vital role in human somatosensory perception as it provides essential touch information necessary for interacting with the environment and accomplishing daily tasks. The progress in textile electronics has opened up opportunities for developing intelligent wearable devices that enable somatosensory perception and interaction. Herein, a skin‐inspired all‐textile pressure sensor (ATP) is presented that emulates the sensing and interaction functions of human skin, offering wearability, comfort, and breathability. The ATP demonstrates impressive features, including ultrahigh sensitivity (1.46 × 106 kPa−1), fast response time (1 ms), excellent stability and durability (over 2000 compression‐release cycles), a low detection limit of 10 Pa, and remarkable breathability (93.2%). The multipixel array of ATPs has been proven to facilitate static and dynamic mapping of spatial pressure, as well as pressure trajectory monitoring functions. Moreover, by integrating ATP with oscillation circuits, external force stimuli can be directly encoded into digital frequency pulses that resemble human physiological signals. The frequency of output pulses increases with the applied pressure. Consequently, an ATP‐based artificial sensory system is constructed for intelligent tactile perception. This work provides a simple and versatile strategy for practical applications of wearable electronics in the fields of robotics, sports science, and human–machine interfaces technologies. [ABSTRACT FROM AUTHOR]

Published

2024

24. Photoantimicrobial and Photoantiviral Textiles: Underestimated Potential.

Author

Efimov, Alexander and Mordon, Serge

Subjects

*TEXTILES

Abstract

In this review, we summarize the present state of a rapidly developing field of light-activated antimicrobial textiles and their underestimated potential and opportunities. [ABSTRACT FROM AUTHOR]

Published

2024

25. Flexible electrode on e-textile based on screen-printed silver ink carbon nanotube.

Author

Kim, Jihyun, Choi, Hae Woon, Kim, Bongseop, Kim, Eunkyung, and Kim, Jonghyun

Subjects

*ELECTROTEXTILES, *TEXTILE printing, *ELECTRIC conductivity, *CARBON nanotubes, *SPACE exploration

Abstract

In this study, we examine the combination of flexible textiles and electrodes to develop electronic textiles (e-textiles). We present a facile fabrication process using printing and coating conductive electrodes. Innovative textiles, which have evolved primarily through the integration of textile and electronic elements, have developed into e-textiles capable of performing high-dimensional tasks. For practical use of e-textiles, however, they should be compatible with various textiles, economical production, and suitable for mass production. In this study, silver ink-carbon nanotubes are used to screen-print electrodes, a key element of e-textile. We verify four types of spandex textiles and analyze whether ink-based electrodes are stably printed on the textile surfaces. As a post-process, 3D printing mold coating is invited to invent durable and water-repellent electrodes. The fabricated e-textile proves its practicality using a washing test. Additionally, electrical measurements under mechanical bending reveal a variety of potential applications based on their properties. As a result, the electrodes of e-textile have an initial electrical resistance of approximately 10 Ω. Polymer coating enhances the reliability of e-textiles. Washing tests and repeated bending deformation demonstrate that they help the coating maintain its electrical conductivity. On the other hand, electrodes without coating lose their electrical capabilities. This study proposes functional materials and reliable manufacturing methods that are beneficial for e-textile production. Accordingly, we present the diversification and potential of the smart textile industry, such as IoT sportswear, medical healthcare clothing, hazardous work detection clothing, and space exploration clothing, which are examples of applications based on e-textile materials and manufacturing technology. [ABSTRACT FROM AUTHOR]

Published

2024

26. Predictive analysis of electroconductive material parameters for system optimisation.

Author

AILENI, RALUCA MARIA and STROE, CRISTINA

Subjects

SURFACE resistance, MATHEMATICAL optimization, DEPENDENT variables, INDEPENDENT variables, MATHEMATICAL models

Abstract

Copyright of Industria Textila is the property of Institutul National de Cercetare-Dezvoltare pentru Textile si Pielarie and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

27. Multidimensional analysis of textiles coated with electroactive polymers for actuators.

Author

AILENI, RALUCA MARIA and STROE, CRISTINA

Subjects

MULTIDIMENSIONAL scaling, TEXTILE chemistry, POLYVINYLIDENE fluoride, POLYVINYL alcohol, COATED textiles

Abstract

Copyright of Industria Textila is the property of Institutul National de Cercetare-Dezvoltare pentru Textile si Pielarie and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

28. COLORO在纺织品色彩管理中的探索和实践.

Author

胡　松

Subjects

ACHROMATISM, TEXTILE industry, ARTIFICIAL intelligence, HOMOGENEITY, DIGITAL technology

Abstract

Copyright of China Textile Leader is the property of China Textile Information Center and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

29. Fabric-like bacterial cellulose for textile applications – analysis of influences between physical and thermal dehydration on end-use performance.

Author

Phan, Hung Ngoc, Bui, Huong Mai, and Vu, Nguyen Khanh

Abstract

When researching practical applications for fashion, healthcare, and others of Bacterial Cellulose (BC), dehydration of BC is currently emphasized as one of its primary limits, which reduces the material's attractiveness in these fields. This work explored the effects of physical and thermal dehydration methods on dehydration effectiveness, rehydration, appearance, structure, and morphology. Squeezing employing the padding method results in the most effective dehydration for mass and thickness loss (97.76 ± 0.31% and 98.29 ± 0.32%, respectively), which is advantageous for productivity (roundly 108-432 times faster than freeze-drying and 105 °C convection drying). Fabric-like BC produced possesses a good appearance, oriented fiber arrangement, fabric-embossing surface, thin thickness (0.27 ± 0.06 mm), water absorbency (11.93 ± 1.09 weight times), strong bursting strength, water vapor transmission, resistance to water penetration, and proactive moisture content selection. Fabric-like BC, therefore, will uncover tremendous potential applications of textile finishing and dyeing for modification and functionalization in environment-friendly, and productive ways and make progress in BC dehydration. [ABSTRACT FROM AUTHOR]

Published

2024

30. Utilizing Traditional Indian Textile Techniques for Upcycling the Textile Waste.

Author

Renu, Singh, Kiran, Komal, and Devi, Sarita

Subjects

SUSTAINABILITY, TEXTILE waste, SUSTAINABLE fashion, TEXTILE industry, WASTE management

Abstract

The global textile industry generates 92 million tons of waste annually, highlighting urgent environmental concerns. In India alone, 7,800 kilotonnes of textile waste are managed yearly, with 51% originating from post-consumer and 42% from pre-consumer sources. The study on textile waste management and sustainable practices among tailors and house tailors in Hisar, Haryana, India surveyed 30 respondents, including 15 tailors and 15 home tailors, revealing demographic insights such as a majority (56.6%) in the 40-55 age group and a gender disparity favoring females (63.3%). Most participants (76.6%) were married, and 53.3% had completed higher secondary education. Waste generation averaged 5-10 kg per month for 56.6% of respondents, predominantly managed through upcycling at home (63.3%) and donation (33.3%). High awareness (63.3%) of sustainable clothing practices was noted, with primary motivations including economic reasons (30.0%) and personal creativity (43.3%). The findings underscore a proactive approach towards managing clothing waste, emphasizing upcycling, and growing consumer interest in sustainable fashion choices. Addressing demographic and motivational factors is crucial for promoting effective recycling and upcycling strategies in the textile industry. [ABSTRACT FROM AUTHOR]

Published

2024

31. Experimental support for a sustainable treatment strategy of acrylic fiber dyeing wastewater.

Author

Kabdaşlı, Işık and Orhon, Derin

Subjects

SUSTAINABILITY, ACRYLIC fibers, COLOR removal (Sewage purification), SEWAGE, BIOMASS

Abstract

The study intended to devise a sustainable treatment scheme for acrylic fiber dyeing process effluents, which significantly differ from other textile plant wastewaters. The necessary experimental support was generated from a set of tests conducted on the wastewater of a plant operation, focused solely on acrylic fiber dyeing. Related experiments involved effluent characterization, biological treatability, and chemical settling/oxidation performed on raw and bio‐treated effluent, as pre‐treatment and/or polishing steps. A total COD level of 910 mg/L with a 70% soluble ratio, low total N and P contents below 10 mg/L, a detergent content of 50 mg/L and a dark/black color of 1150 Pt‐Co unit defined the average properties of the raw plant effluent. Experimental support indicated that activated sludge operation at a sludge age level above 25 d, remained insufficient as it could only provide an effluent with a soluble COD level above 150 mg/L, a biomass escape in the range of 40 to 100 mg/L and with an intense dark color. A similar experimental template, including chemical settling, chemical oxidation by NaOCl and combination of the two processes, was tested as pre‐treatment and a polishing step after biological treatment. Pre‐treatment, although with some benefit to remove toxic and inhibitory compounds, proved to be highly costly, due to excessive chemical usage and sludge generation for a sustainable, cost‐effective approach. The sequence of chemical oxidation and settling steps implemented as a polishing stage was quite effective as it secured complete color removal, a major source of concern for the selected wastewater and also, it reduced COD down to 60 mg/L, a level significantly below the residual COD threshold for biological treatment. This approach, although case‐specific for this study, provided a scientific and general perspective for similar work. [ABSTRACT FROM AUTHOR]

Published

2024

32. Arkeolojik Tekstillere İlk Müdahale ve Sürdürülebilir Koruma.

Author

Yanar, Ayşem and Arin, Kardelen

Abstract

Copyright of Journal of Academic Social Science Studies is the property of Journal of Academic Social Science Studies and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

33. 基于深度学习的准各向同性缎纹 C/SiC 拉伸- 剪切损伤演化机制.

Author

陈鹏, 王龙, 张大旭, 杜永龙, 郭纬愉, and 陈超

Subjects

IMAGE segmentation, DEEP learning, TENSILE tests, NONDESTRUCTIVE testing, QUANTITATIVE research

Abstract

Copyright of Acta Materiae Compositae Sinica is the property of Acta Materiea Compositae Sinica Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

34. Unveil the carbon footprint of textiles dyed with different reactive dyestuff recipes from an industrial manufacturing perspective.

Author

Zhu, Di, Bao, Yunfei, Ding, Xuemei, and Wu, Xiongying

Subjects

REGRESSION analysis, INDUSTRIAL textiles, PRODUCT life cycle assessment, SEWAGE purification, ECOLOGICAL impact

Abstract

Purpose: The textile industry is inclined towards an unsustainable trajectory because of a variety of environmental issues stemming from the intensive use of water and energy during wet processing. As climate change has been regarded as the biggest health threat facing humanity and textiles' color derived from dyestuff is closely associated with wet processing, this study focuses on evaluating the carbon footprint (CF) of textiles dyed with different dyestuff recipes and identifying the quantitative correlation between the CF and the mass of dyestuff inputted, to seek opportunities for improvement from the manufacturers' perspective. Methods: The industrial CF of 25 cotton-dyed knitted fabrics with different reactive dyestuff recipes was assessed referring to PAS 2395 and the methodology of life cycle assessment, where the investigated phases include knitting, wet processing, packing, and sewage treatment. The primary data of assessed fabrics were collected by on-site investigation in a knitting manufacturing company in China. The functional unit is knitting, dyeing, and finishing 1 t of cotton. The mass of dyestuff in a dyeing bath for 1 kg fabric (MDB) was utilized to characterize different colors of textiles. A quantitative correlation between the CF of wet processing and MDB was established through second-order polynomial regression. Results and discussion: Within the given system boundary, 1 t of cotton-dyed knitted fabric emitted an average of 7505.12 kg CO2 eq, and energy accounts for the largest proportion. When white fabric without any dyestuff was included and excluded from the sample range, the maximum differences in CF between fabrics were 4437.90 kg CO2 eq and 3546.55 kg CO2 eq, respectively. Furthermore, with the consecutive increment of MDB within a certain range (0 ~ 5.41%), the CF of pre-processing shows a gentle downward trend while the CF of dyeing exhibits a trend of initially rising and subsequently declining within a certain range (0 ~ 1.37%) and then presents an upward trend. Interestingly, the CF of wet processing is affected by the alternation of its two major processes. The above results may reduce the absoluteness of the argument that "textiles with darker colors are less environmentally friendly." Conclusions: Special attention should be paid to the contribution of textiles' color to their CFs, owing to the substantial variations that exist in the CF of wet processing among knitted fabrics of different colors. The contribution of wet processing to global warming is impacted by multiple factors, including steam consumption, chemical usage, liquor ratio, and process time. This study may offer ideas for interdisciplinary research and point out the future direction for the textile wet processing industry to improve environmental performance. [ABSTRACT FROM AUTHOR]

Published

2024

35. Tahirou Husseini, dernier teinturier actif du Nord Bénin

Author

Olivier P. Gosselain and Barpougouni Mardjoua

Subjects

indigo dyeing, textile, ethnography of techniques, Living Human Treasure, Archaeology, CC1-960, History of the arts, NX440-632

Abstract

In March 2023, we were able to observe and interview the last active dyer in northern Benin, in a district of the town of Nikki. A living human treasure whose disappearance could mean the disappearance of a centuries-old technical tradition, Tahirou Husseini took us through a number of operations involved in preparing the dye bath and colouring the textiles. He also described the context in which the craft was practised in the past and the changes that have taken place over time. In this article, we share this information. Some of it has rarely been mentioned in the literature.

Published

2024

36. Textiles from non-wood feedstocks: Challenges and opportunities of current and emerging fiber spinning technologies

Author

Ryen M. Frazier, Mariana Lendewig, Ramon E. Vera, Keren A. Vivas, Naycari Forfora, Ivana Azuaje, Autumn Reynolds, Richard Venditti, Joel J. Pawlak, Ericka Ford, and Ronalds Gonzalez

Subjects

Non-wood, Residue, Regenerated cellulose, Fibrillated cellulose, Biobased fiber, Textile, Biochemistry, QD415-436

Abstract

As the global population continues growing, the demand for textiles also increases, putting pressure on cotton manufacturers to produce more natural fiber from this already undersupplied resource. Synthetic fibers such as polyester (PET) can be manufactured quickly and cheaply, but these petroleum-based products are detrimental to the environment. With increased efforts to encourage transparency and create a more circular textile economy, other natural alternatives must be considered. This article discusses the existing condition and future possibilities for man-made cellulosic fibers (MMCFs), with an emphasis on using non-woody alternative feedstocks as a starting material. This work focuses on conversion technology suitable for producing textile-grade fibers from non-wood-based dissolving pulp, which may be different in nature from its woody counterpart and therefore behave differently in spinning processes. Derivatization and dissolution methods are detailed, along with spinning techniques and parameters for these processes. Existing research related to the spinning of non-woody-based dissolving pulp is covered, along with suggestions for the most promising feedstock and technology combinations. In addition, an emerging method of conversion, in which textile fibers are spun from a hydrogel made of an undissolved nano/micro-fibrillated fiber suspension, is briefly discussed due to its unique potential. Methods and concepts compiled in this review relate to utilizing alternative feedstocks for future fibers while providing a better understanding of conventional and emerging fiber spinning processes for these fibers.

Published

2024

37. The Effect of Ratio of Fiber Bundles in the Textile Composite Layer

Author

Bojtár Gergely

Subjects

composite, textile, roving, ratio of fiber bundles, orthotropic material properties, finite element method, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The article shows how the orthotropic material properties of the textile composite layer change if the ratio of longitudinal and transversal fiber bundles in the textile is modified in the case of a composite reinforced with plain weave textile. I determine the material properties using model-cell and finite element simulation. The density of the longitudinal fiber bundles is the same in each of the five examined layer models. I change the ratio of the fiber bundles of the textile by varying the distance of the transversal roving’s in each model.

Published

2024

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

Author

Domskienė Jurgita and Gaidule Eliza

Subjects

digital product passport, textile, clothing, sustainability, digitisation, baltic sea region, Textile bleaching, dyeing, printing, etc., TP890-933

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.

Published

2024

39. Bak gardineneKvinnelige mønstertegnere hos Th. Lunde og Hjula Væveri 1910–1938

Author

Tone Rasch and Else Braut

Subjects

kvinner, tekstil, design, yrker, women, textile, Museums. Collectors and collecting, AM1-501

Abstract

Tidlig på 1900-tallet var det stor tekstilproduksjon i Norge. Tekstilene var både håndvevde og maskinvevde, og mange kvinner var dypt involverte i produksjonen på profesjonell basis. Vi har undersøkt bakgrunnen til kvinnene som laget mønstre til tekstiler ved bedriftene Th. Lunde og Hjula Væveri, som henholdsvis var en håndverksbedrift og en bomullsfabrikk. Hvem var disse kvinnene, hvilket arbeid utførte de, og hva var deres utdannelse, kompetanse og sosiale relasjoner? Det blir undersøkt om – og i så tilfelle hvordan – det er mulig å finne noen sammenheng mellom kvinnenes kjønns- og klassetilhørighet og den anonymiteten som vi i dag mener kjennetegner de kvinnelige mønsterprodusentene. Tekstilproduksjon var et av de første områdene hvor kvinner kunne ta høyere utdannelse, og dermed fikk de innpass i flere yrker. I artikkelen blir det argumentert for at det likevel var forhold som gjorde kvinner mindre synlige enn menn. Kvinnene var ofte kortvarig knyttet til bedriftene som mønstertegnere, før de gikk over til andre arbeidsfelt. I parsamarbeid var det vanlig at kvinnene vevde eller broderte mønstrene mennene hadde tegnet. Kvinnene ble minst synlige av de to. Usynligheten ble forsterket av at kvinner skiftet navn ved giftermål, og dermed blir de vanskeligere å gjenkjenne i kildene. Tekstilproduksjon og mønstertegning åpnet veien for kvinner inn i yrkeslivet, men det gjenstår fortsatt et arbeid med å løfte dem frem i historien.

Published

2024

40. Production Process Model Based on Lean Manufacturing, TPM and SLP to Increase the Service Level in Companies in the Textile Sector.

Author

Ono-Yamanija, Andrea, Daniela Reategui-Gonzales, Valeria, and Fidel Collao-Diaz, Martin

Subjects

LEAN management, TEXTILE industry, ARTIFICIAL intelligence, DIGITAL technology, TECHNOLOGICAL innovations

Abstract

The textile sector is highly competitive, so quality and efficiency are essential to improve the level of service of companies. For this reason, the implementation of a production model based on Lean Manufacturing, Total Productive Maintenance (TPM) and Simplified Logistics Planning (SLP) becomes a proposal for improvement for the optimization of companies' production processes. This paper will examine in detail the application of this improvement proposal through a case study and the impact that these models have on the efficiency, quality, and ability of the company to know customer demand. [ABSTRACT FROM AUTHOR]

Published

2024

41. Fabricating multifunctional PLA textiles with advanced respiratory detection and environmental safety.

Author

Yunhui Wu, Chengkai Luo, Huanyu Liu, Wen Li, and Jun-Wei Zha

Subjects

*ESCHERICHIA coli, *CONDUCTING polymers, *TEXTILE exhibitions, *ENVIRONMENTAL security, *POLYPROPYLENE

Abstract

Currently, polylactic acid (PLA) is an attractive alternative to polypropylene (PP) because of its biodegradability. This study introduces a novel modification strategy for PLA by creating a multifunctional ionization layer with ionic salts. This approach achieves humidity sensing, reliable antibacterial properties, and excellent degradability simultaneously. The modified PLA textile sensor exhibits high sensitivity to respiratory humidity (0.92 at 90% RH), with ultrafast response (0.12 s) and recovery times (0.16 s). Additionally, the textile demonstrates excellent antibacterial performance against both E. coli (99.9%) and S. aureus (99.9%) after 1 h of contact. It also shows notable biodegradability with a weight loss rate of 60.38% after 30 days. Also, the ionic salt mechanism is explained through dynamic ionization interactions attributed to the modified ionic salts, which feature both long-chain alkanes and active ions. This work presents a new method to enhance the respiratory detection and antibacterial performance of biodegradable masks. [ABSTRACT FROM AUTHOR]

Published

2024

42. The effect of the type of loom used on the acquisition of cognitive skills related to textile structures for hearing-impaired female students

Author

Prof. Rania Mostafa Kamel Deabes and Assist. Prof. Salwa Mohammed Amin Tashkandi

Subjects

loom, textile, textile structures 3, hearing-impaired, Architecture, NA1-9428

Abstract

Learning the textile industry is essential in arts and crafts education programs, as it contributes to developing motor and creative abilities and enhances independence. Textile structures science is considered one of the courses to be studied by female students with severe hearing impairment enrolled in the Fashion Industry Program at King Abdulaziz University in Jeddah The research aims to measure the impact of using both the frame loom method and the floor loom method (pedals) to acquire the cognitive skills associated with manual work on the loom. The importance of the research is evident in the necessity of improving the quality of life of female students with hearing impairment and integrating them into society by enabling them to master some handicrafts. This has been applied to different sixth-level female students who were divided into two sections, each section used to be taught in a method, and the “pre-post” cognitive testing tool was used. The research concluded that the use of both methods was successful in acquiring the required cognitive skills and that there were no statistically significant differences between the average scores of the two groups (the first which had been taught using the frame method, and the second which has been studied using the floor loom method (pedals) for the members of the research sample in the post-application of the test. The research recommends paying attention to conducting similar studies on the different methods used in teaching practical courses to female students with severe hearing impairment.

Published

2024

43. Patent landscape analysis for materials based on fungal mycelium: a guidance report on how to interpret the current patent situation

Author

Vera Meyer and Sabine Mengel

Subjects

Filamentous fungi, Fungal composite material, Biomaterial, Fungal leather, Textile, Packaging material, Biotechnology, TP248.13-248.65

Abstract

Abstract Background Recent advancements in the collaboration between two scientific disciplines—fungal biotechnology and materials sciences—underscore the potential of fungal mycelium as renewable resource for sustainable biomaterials that can be harnessed in different industries. As fungal mycelium can be biotechnologically obtained from different filamentous fungi and is as a material very versatile, respective research and commercial application should be thriving. However, some granted patents in the field of fungal mycelium-based materials have caused uncertainty in the community as to which subject matter is patent-protected and for how long the protection is expected to last. Results This opinion paper therefore maps the patent landscape of fungal mycelium-based materials with a specific focus on technical applications including building construction, insulation, packaging, and the like. We provide an overview of granted patents (73) and pending applications (34) related to granted patents, the dominant patent portfolios (five, with the number of patents and/or applications per owner between six and 44), the patent owners, and highlight the key claims formulated to protect the inventions. Additionally, we outline various options towards an increased activity in the field. Conclusion Patent developments in the field leave the impression that fungal materials, despite their high potential as renewable and biodegradable materials, have been held back due to patent over-protection. Considering the need for replacing current petroleum-based materials with renewable biomaterials, coordinated efforts may be called for to intensify efforts in the field.

Published

2024

44. A review of the characteristics and prospective applications of cola acuminata (cola nut) dye extract on textile materials

Author

S. I. Ichetaonye, K. K. Ajekwene, U. K. Ugo, C. K. Oguzie, and F. A. Opara

Subjects

Applications, Cola acuminate, Extract, Sustainability, Textile, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Abstract The review explored the potential of cola acuminata (cola-nut) as a natural and eco-friendly dye source for textiles, taking into account its characteristics, and prospective applications on textile materials. Moreover, the review discusses the various techniques used to extract the dye from cola acuminata, the dye yield, the compound responsible for the color yield of the cola, its various applications, and prospect for sustainable management. There has been limited research on the sustainability of cola acuminata dye extract where there has also been a growing interest in the use of natural dye in the textile industry. Additionally, the production and use of synthetic dyes have been associated with several environmental issues, including water pollution, waste generation, carbon emissions, as well as health related problems for textile workers, particularly in developing countries. However, the dye extract of cola acuminata has been found to possess good color fastness properties and has proven to be a sustainable alternative to synthetic dye since it contains tannins, which are a type of polyphenolic compound that can be used as a natural dye. The tannins in the extract have been shown to have flavonoids properties, so that textiles dyed with the extract may be very resistant to microbial growth. Although, the tannin content of the seeds has been reported to be higher than that of some cola such as cola nitida, despite its lower dye yield. Moreso, the review emphasized on the importance of continued research in this field to optimize the dyeing process and contribute also to the enhancement of sustainable practice in the textile sector. It further provides valuable insights into the potential applications of cola acuminata dye extract particularly in the textile industry.

Published

2024

45. Eco-friendly lignin nanoparticles as antioxidant and antimicrobial material for enhanced textile production

Author

Mohamed Abdel-Shakur Ali, Nadia Mohamed Abdel-Moein, Amal Saber Owis, Shaimaa Elsayed Ahmed, and Eman Ahmed Hanafy

Subjects

Egyptian cotton, Textile, Lignin nanoparticles, Characterization, Antioxidant, Antimicrobial, Medicine, Science

Abstract

Abstract Natural polymers are bioactive compounds that are used in the treatment of several disorders. Natural lignin, an amorphous polymer, offers significant potential for use as a building block in the production of bio-renovation materials. This study used an alkaline solvent technique to extract lignin from two Egyptian cotton cultivar byproducts, Giza 86 and 90. We then created nano-lignin to recycle cotton stalks into an environmentally beneficial product. The characterization of L86, L90, LNP86, and LNP90 was carried out using particle size, zeta potential, FT-IR, and TEM. Antioxidant activity using the DPPH assay and antimicrobial activity were determined for lignin and nano-lignin. Seven pathogenic bacteria (Bacillus cereus, Staphylococcus aureus, Staphylococcus sciuri, Salmonella typhi, Salmonella enterica, Escherichia coli, and Pseudomonas aeruginosa) and five mycotoxigenic fungi (Aspergillus flavus, Aspergillus ochraceus, Aspergillus niger, Fusarium proliferatum and Penicillium verrucosum) were used for antimicrobial activity. The results showed high antioxidant efficiency for LNP90, with an IC50 of 10.38 µg/mL. The antimicrobial activity showed positive growth inhibition for all studied microorganisms, with significant differences in nano-lignin compared to ordinary lignin. lignin and nano-lignin were effectively applied to treated textiles for medical purposes. The study concluded that single-use medical textiles with anti-microbial and anti-oxidant properties, made from lignin and nano-lignin, could benefit patients intolerant to antibiotics.

Published

2024

46. Textile Sustainable Development Related to Culture: A Scientometric Approach

Author

Can Cui, Shaari Nazlina, Zainal Abidin Sazrinee, and Mohd Ali Noor Azizi

Subjects

textile, sustainability, culture, scientometrics, Textile bleaching, dyeing, printing, etc., TP890-933, Large industry. Factory system. Big business, HD2350.8-2356

Abstract

The sustainable development of textiles has been a notable concern for the textile industry and society in recent years. From green textiles and circular textiles to cultural textiles, academia has conducted many explorations. The problem of the connection between the cultural needs of increasingly educated consumers and the development of textiles has become increasingly prominent, which has also triggered many new social problems. This study aims to explore how culture promotes sustainability in textiles and can meet consumer demands. This study uses scientometric methods to conduct a thematic analysis of cultural factors in the development of textiles. From 2013 to 2023, the Web of Science and Scopus databases included a total of 306 articles related to the cultural factors in textiles. The results of this study are as follows: 40 main research keyword clusters appeared in the knowledge base, 6 research themes were identified, and a conceptual framework of culture in the development of textiles was constructed. At the same time, this study provides suggestions on how to better establish communication between textiles and culture. The results of this study will help textile practitioners better understand the current status, hot spots, and research trends of cultural sustainability in the textile industry while establishing closer connections with consumers.

Published

2024

47. Polysaccharide Based-Mucilage and Their Adhesion, Textile and Paper Applications

Author

Uwa Orji Uyor, Patricia Abimbola Popoola, and Olawale Popoola

Subjects

binder, mucilage, phytochemical, physiochemical, textile, Home economics, TX1-1110

Abstract

Mucilage are bio-substances derived from plants or microorganisms that have positive effects on health, including boosting the immune system, calming the gastrointestinal tract, and decreasing blood pressure. Overall, recent developments in mucilage research have shown the materials’ potential for usage in variety of other fields, including adhesion or binding, textiles, papers, etc. However, there is limited widespread knowledge on the characteristics and use of mucilage in adhesion, textile, and paper industries. Therefore, this review navigates through the mucilage's chemical structure, and thermal, mechanical, physiochemical, and phytochemical features, weaving together their advanced applications. As the scientific community continues to unravel the advantages of mucilage extracts and harness their untapped potential, this review serves as both a testament to past achievements and a beacon guiding researchers towards a future enriched by the possibilities they hold.

Published

2024

48. Wearable, Knitted 3D Spacer Thermoelectric Generator with Detachable p-n Junctions for Body Heat Energy Harvesting.

Author

Newby, Samantha, Mirihanage, Wajira, and Fernando, Anura

Subjects

*THERMOGRAPHY, *ELECTROTEXTILES, *BODY temperature, *ENERGY harvesting, *POTENTIAL energy, *THERMOELECTRIC generators, *SEEBECK coefficient

Abstract

Textile-based thermoelectric (TE) devices are being investigated to power smart textiles autonomously. While previous research has focused on a solid system where the required junctions are fabricated into the device, there has been limited attention given to replacing these TE systems reliably. This work looks at a newer approach to the construction and demonstration of a wearable thermoelectric structure that employs three-dimensional knitted spacers to increase the temperature difference where the TE junctions are detachable and disposable. This system features positive and negative junctions which can be removed while maintaining its excellent voltage generation in low ΔT and good Seebeck coefficients. A mathematical model simulates the potential energy outputs and maximum power points generated, which can be used to increase the device's performance for future wearable sensing applications. [ABSTRACT FROM AUTHOR]

Published

2024

49. Design of Biodegradable PU Textile Coating.

Author

De Smet, David, Verjans, Jente, Bader, Miriam, Mondschein, Anke, and Vanneste, Myriam

Subjects

*MELTING points, *COATED textiles, *DIFFERENTIAL scanning calorimetry, *THERMOGRAVIMETRY, *MICROPLASTICS

Abstract

Polyurethane (PU) coatings are used in diverse applications such as textile coating. Up to today, landfilling is still the most occurring way of processing PU waste. Biodegradation is an alternative route for processing PU waste and decreases the amount of microplastics in the case of landfilling. In this study, a biodegradable PU textile coating was developed. The PU was characterized via Fourier-transformed infrared (FT-IR) thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC). The PU was thermoplastic and had a melting point of approximately 33 °C. The performance of the coating was studied by assessing the water barrier and mechanical properties. The PU coating completely disintegrated, and the biodegradation of PU was assessed in soil and was almost 60%. Furthermore, the plant toxicity was examined by evaluating seedling emergence and growth. [ABSTRACT FROM AUTHOR]

Published

2024

50. Polarization‐Induced Mechanically Socketed Ultra‐Stretchable and Breathable Textile‐Based Nanogenerator and Pressure Sensor.

Author

Garg, Romy, Majhi, Abhisek, P, Nagasreenivasarao, Patra, Nikhil Ram, Barve, Ritesh, and Parida, Kaushik

Subjects

*NANOGENERATORS, *SURFACE charges, *WEARABLE technology, *PRESSURE sensors, *MICROFIBERS, *NANOFIBERS, *PIEZOELECTRIC transducers

Abstract

Textile‐based wearable triboelectric nanogenerators (TENGs) have emerged as viable power sources for wearable electronics. However, it is still a daunting challenge to realize a high‐performing textile‐based nanogenerator without compromising its intrinsic textile‐like properties, such as stretchability, breathability, and conformability. The above challenge is addressed by fabricating a record high‐performing wearable, breathable and stretchable nanogenerator based on polarization‐induced ultra‐stretchable EVA/Nylon‐11 micro/nano‐fibers (1250%) as the triboelectric positive layer and polarization‐induced ultra‐stretchable EVA/PVDF/BA2CsAgBiBr7 micro/nano‐fibers (1480%) as the triboelectric negative layer. The excellent stretchability, breathability (1.15 Kgm−2d−1) and high energy‐harvesting performance (650 V, 19.5 µAcm−2) are attributed to the mechanically‐socketed structure of the aligned stretchable EVA microfibers with the polarized nanofibers, thus providing a universal framework to fabricate stretchable piezoelectric fibers. Compositional engineering and polarization‐induced surface charges coupled with triboelectric‐induced surface charges enabled enhanced performance compared to other wearable stretchable textile‐based nanogenerators. Additionally, it is utilized as a stretchable self‐powered pressure sensor with an ultra‐wide pressure sensing range (0.05–500 kPa) and high sensitivity (2.5 VkPa−1) even under deformations. To the best of the knowledge, PI‐STENG stands out amongst various stretchable self‐powered pressure sensors in terms of pressure sensing range and stretchability. The PI‐STENG is demonstrated as a machine learning‐enabled intellisensor for workforce safety monitoring. [ABSTRACT FROM AUTHOR]

Published

2024