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6. List of contributors

Author

Abreu, M.J., primary, Amutha, K., additional, Annapoorani, S.G., additional, Basak, S., additional, Braga, I., additional, Buscio, V., additional, Chatterjee, K.N., additional, Chattopadhyay, S.K., additional, Choudhury, A.K.R., additional, Gutiérrez-Bouzán, C., additional, Karthik, T., additional, Militky, J., additional, Murugan, R., additional, Pal, H., additional, Periyasamy, A.P., additional, Rathinamoorthy, R., additional, Samanta, K.K., additional, Sharma, D., additional, and Wiener, J., additional

Published
2017
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7. ‘Ingots’ from the second Iron Age. A first overview

Author

Julia Genechesi, Eneko Hiriart, Laurent Callegarin, Jean-Marc Doyen, Anthony Lefort, Militky, J., Sylvia Nieto-Pelletier, Guy Rancoule, Guillaume Sarah, Tomas Smělý, Musée monétaire cantonal de Lausanne (MMC), LabEx Sciences archéologiques de Bordeaux (LASCARBX), Université de Bordeaux (UB)-Université Bordeaux Montaigne (UBM), Identités, Territoires, Expressions, Mobilités (ITEM), Université de Pau et des Pays de l'Adour (UPPA), Histoire, Archéologie et Littérature des Mondes Anciens - UMR 8164 (HALMA), Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Ministère de la Culture (MC), Institut national de recherches archéologiques préventives (Inrap), IRAMAT - Centre Ernest Babelon (IRAMAT-CEB), Institut de Recherches sur les Archéomatériaux (IRAMAT), Université de Technologie de Belfort-Montbeliard (UTBM)-Université d'Orléans (UO)-Université Bordeaux Montaigne (UBM)-Centre National de la Recherche Scientifique (CNRS)-Université de Technologie de Belfort-Montbeliard (UTBM)-Université d'Orléans (UO)-Université Bordeaux Montaigne (UBM)-Centre National de la Recherche Scientifique (CNRS), Université Bordeaux Montaigne-Université de Bordeaux (UB), Histoire Archéologie Littérature des Mondes Anciens - UMR 8164 (HALMA), Université de Technologie de Belfort-Montbeliard (UTBM)-Université d'Orléans (UO)-Université Bordeaux Montaigne-Centre National de la Recherche Scientifique (CNRS)-Université de Technologie de Belfort-Montbeliard (UTBM)-Université d'Orléans (UO)-Université Bordeaux Montaigne-Centre National de la Recherche Scientifique (CNRS), and Université d'Orléans (UO)-Centre National de la Recherche Scientifique (CNRS)-Université Bordeaux Montaigne-Université de Technologie de Belfort-Montbeliard (UTBM)-Université d'Orléans (UO)-Centre National de la Recherche Scientifique (CNRS)-Université Bordeaux Montaigne-Université de Technologie de Belfort-Montbeliard (UTBM)

Subjects
[SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory, ComputingMilieux_MISCELLANEOUS, [SHS]Humanities and Social Sciences
Abstract

International audience

Published
2021

12. A Review of Textiles Reflecting FIR Produced by the Human Body

Author

Militký Jiří, Křemenáková Dana, Venkataraman Mohanapriya, Večerník Josef, Martínková Lenka, Marek Jan, and Procházka Jiří

Subjects
far infrared, reflection, infrared radiation, heat transfer, thermal radiation, emissivity, fir textiles, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

The human body constantly produces thermal electromagnetic radiation with a maximum of about 10 μm. This thermal radiation has a number of positive effects on the human body and, in addition, allows the insulation under clothing to be improved under extreme climatic conditions, causing a significant reduction in ambient temperature. With so-called far-infrared (FIR) textiles, it is possible to ensure the reflection of thermal radiation back to the human body. In the first part of this review, the generation of heat by the human body and its propagation by radiation through the skin are comprehensively explained. The thermal characteristics of the individual skin layers as an emitter of infrared radiation are given. The second part discusses the basic preparation methods of FIR textiles. Suitable particle systems are described based on metals and their oxides, porous carbon, and special ceramics. Modification of the fiber phase (especially the fineness of the fibers and the porosity of the fabric) in combination with the surface coating of metals is also used for their health-promoting effects. The main manufacturers of FIR textiles and their typical products are mentioned.

Published
2022
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18. Conductive Heat Transfer Prediction of Plain Socks in Wet State

Author

Mansoor Tariq, Hes Lubos, Khalil Amany, Militky Jiri, Tunak Maros, Bajzik Vladimir, and Kyosev Yordan

Subjects
heat transfer, mathematical modeling, plain socks, moisture content, filling coefficient, volume porosity, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

In this study, an algebraic model and its experimental verification was carried out to investigate the effect of moisture content on the heat loss that takes place due to conduction of sock fabrics. The results show that increasing moisture content in the studied socks caused a significant increase in their conductive heat loss. Plain knitted socks with different fiber composition were wetted to a saturated level, and then their moisture content was reduced stepwise. When achieving the required moisture content, the socks samples were characterized by the Alambeta testing instrument for heat transfer. Three different existing modified mathematical models for the thermal conductivity of wet fabrics were used for predicting thermal resistance of socks under wet conditions. The results from both ways are in very good agreement for all the socks at a 95% confidence level. In the above-mentioned models, the prediction of thermal resistance presents newly a combined effect of the real filling coefficient and thermal conductivity of the so-called “wet” polymers instead of dry polymers. With these modifications, the used models predicted the thermal resistance at different moisture levels. Predicted thermal resistance is converted into heat transfer (due to conduction) with a significantly high coefficient of correlation.

Published
2021
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21. Experimental and Modelling Studies on Thermal Insulation and Sound Absorption Properties of Cross-Laid Nonwoven Fabrics

Author

Yang Tao, Hu Lizhu, Xiong Xiaoman, Petrů Michal, Palanisamy Sundaramoorthy, Yang Kai, Novák Jan, and Militký Jiří

Subjects
thermal insulation, sound absorption, nonwoven, polyester, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

Nonwoven fabrics are widely used for thermal insulation and sound absorption purpose in construction and automobile fields. It is essential to investigate their thermal conductivity and sound absorption coefficient. Five cross-laid nonwoven fabrics are measured on the Alambeta device and Brüel & Kjær impedance tube. Bogaty and Bhattacharyya models are selected to predict the thermal conductivity, and Voronina and Miki models are used to predict the sound absorption coefficient. The predicted thermal conductivity shows a significant difference compared with the measured values. It is concluded that Bogaty and Bhattacharyya models are not suitable for high porous nonwoven fabric. In addition, the results of Voronina and Miki models for sound absorption prediction are acceptable, but Voronina model shows lower mean prediction error compared with Miki model. The results indicate that Voronina model can be used to predict the sound absorption of cross-laid nonwoven fabric.

Published
2021
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22. Effect of Temperature on the Structure and Filtration Performance of Polypropylene Melt-Blown Nonwovens

Author

Cheng Si, Muhaiminul Alam S. M., Yue Zhonghua, Wang Yan, Xiao Yuanxiang, Militky Jiri, Prasad Mohanapriya, and Zhu Guocheng

Subjects
polypropylene, electret temperature, melt-blown fabrics, structure, filtration performance, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

By applying the simultaneous corona-temperature treatment, the effect of electret temperature on the structure and filtration properties of melt-blown nonwovens was investigated. Fiber diameter, pore size, thickness, areal weight, porosity, crystallinity, filtration efficiency, and pressure drop were evaluated. The results demonstrated that some changes occurred in the structure of electret fabrics after treatment under different temperatures. In the range of 20°C~105°C, the filtration efficiency of melt-blown nonwovens has a relationship with the change in crystallinity, and the pressure drop increased because of the change in areal weight and porosity. This work may provide a reference for further improving filtration efficiency of melt-blown nonwovens.

Published
2021
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23. Thermal Behavior of Aerogel-Embedded Nonwovens in Cross Airflow

Author

Xiong Xiaoman, Venkataraman Mohanapriya, Jašíková Darina, Yang Tao, Mishra Rajesh, Militký Jiří, and Petrů Michal

Subjects
nonwoven fabrics, silica aerogel, cross airflow, heat transfer coefficient, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

Thermal performance of aerogel-embedded polyester/polyethylene nonwoven fabrics in cross airflow was experimentally studied by using a laboratory-built dynamic heat transfer measuring device in which the fabric could be applied on a heating rod. Experiments were performed with different airflow velocities and heating conditions. The temperature–time histories of different materials were collected and compared. The temperature difference and convective heat transfer coefficient under continuous heating were analyzed and discussed. Results showed that under preheated conditions, the aerogel-embedded nonwoven fabrics had very small decrease in temperature and good ability to prevent against heat loss in cross flow. As for the continuous heating conditions, the heat transfer rate of each material showed an increasing trend with increase in the Reynolds number. The aerogel-treated nonwoven fabric with the least fabric thickness and aerogel content delivered a significantly increased heat transfer rate at higher Reynolds number. Thicker fabrics with higher aerogel content could provide better insulation ability in cross flow.

Published
2021
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24. Study on the Relationship Between Structure Parameters and Filtration Performance of Polypropylene Meltblown Nonwovens

Author

Xiao Yuanxiang, Sakib Nazmus, Yue Zhonghua, Wang Yan, Cheng Si, You Jianmin, Militky Jiri, Venkataraman Mohanapriya, and Zhu Guocheng

Subjects
meltblown nonwoven, fiber diameter, pore size, areal density, filtration efficiency, pressure drop, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

In this study, polypropylene meltblown nonwoven fabrics with different structure parameters such as fiber diameter, pore size, and areal density were prepared by the industrial production line. The morphology of meltblown nonwoven fibers was evaluated by using scanning electron microscope, and the diameter of fibers was analyzed by using image-pro plus software from at least 200 measurements. The pore size of nonwoven fabric was characterized by a CFP-1500AE type pore size analyzer. The filtration efficiency and pressure drop were evaluated by TSI8130 automatic filter. The results showed that the pressure drop of nonwoven fabrics decreased with the increase in pore size; the filtration efficiency and the pressure drop had a positive correlation with the areal density. However, when the areal density is in the range of 27–29 g/m2, both filtration efficiency and pressure drop decreased with the increase of areal density; when the areal density was kept constant, the filtration efficiency decreased as the pore size decreased; when the pore size of the meltblown nonwoven fabric is less than 17 μm, the filtration efficiency increased as the pore diameter decreased; when the pore diameter of the nonwoven fabric is larger than 17 μm. In a wide range, the pressure drop decreased as the fiber diameter decreased.

Published
2020
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25. Performance of Electrospun Polyvinylidene Fluoride Nanofibrous Membrane in Air Filtration

Author

Xiao Yuanxiang, Wen Enlong, Sakib Nazmus, Yue Zhonghua, Wang Yan, Cheng Si, Militky Jiri, Venkataraman Mohanapriya, and Zhu Guocheng

Subjects
polyvinylidene fluoride, electrospinning, nanofibrous membrane, air filtration, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

Polyvinylidene fluoride (PVDF) fibrous membranes with fiber diameter from nanoscale to microscale were prepared by electrospinning. The structural parameters of PVDF fibrous membrane in terms of fiber diameter, pore size and its distribution, porosity or packing density, thickness, and areal weight were tested. The relationship between solution concentration and structural parameters of fibrous membrane was analyzed. The filtration performance of PVDF fibrous membrane in terms of air permeability and filtration efficiency was evaluated. The results demonstrated that the higher solution concentration led to a larger fiber diameter and higher areal weight of fibrous membrane. However, no regular change was found in thickness, porosity, or pore size of fibrous membrane under different solution concentrations. The air permeability and filtration efficiency of fibrous membrane had positive correlations with pore size. The experimental results of filtration efficiency were compared with the predicted values from current theoretical models based on single fiber filtration efficiency. However, the predicted values did not have a good agreement with experimental results since the fiber diameter was in nanoscale and the ratio of particle size to fiber diameter was much larger than the value that the theoretical model requires.

Published
2020
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26. Multicriteria Decision-Making in Complex Quality Evaluation of Ladies Dress Material

Author

Misra Srabani, Salacova Jana, and Militky Jiri

Subjects
multicriteria decision-making, complex quality index (cqi), degree of satisfaction (ds), appearance, comfort, ladies dress, apparel, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

Quality is the essence of any product for consumer satisfaction. However, different people have different perception of quality. Eventually the definition of quality varies from product to product and thus it is much more complex in textile clothing material evaluation. The end use application of a specific clothing material determines what should be the parameters of quality evaluation. Thus, the evaluation based on subjective assessment becomes unpredictable and unquantifiable. Quality for dress materials is not simply a physical parameter but something called as psycho-physical parameter. In recent times, many objective evaluation systems have been developed to evaluate the apparel grade textile materials with regard to their quality parameters. However, the evaluation does not involve enough statistical treatment of data so as to obtain a parametric weighted characterization of complex quality. The current work deals with parametric approach to complex quality evaluation based on multicriteria decision-making approach for ladies dress materials. The ladies dress materials are of numerous varieties and choices across the globe. The selection and marketing of these kinds of textile materials need to be given proper emphasis as it depends not only on physical parameters but also on climate, geography, ethnic group, market trend, age group, gender, and many such complex parameters, which are not quantifiable in absolute terms. In this study, woven fabrics used for ladies dress materials are collected from the market and they were evaluated for the consumer-oriented property parameters. A parametric approach is adopted to quantify the overall quality of these dress materials. Various objective techniques were used to evaluate the comfort and esthetic parameters. A complex quality index (CQI) was estimated with weighted combination of all the contributing parameters and total quality index was calculated. Selected consumers with different education level, age, and gender were interviewed to get a statistic of their opinion about quality parameters preferred by them. This complex quality index/degree of satisfaction shows very high correlation with subjective judgment. A CQI can be evaluated for each kind of clothing material looking into their applications.

Published
2020
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27. TOWARDS A CIRCULAR ECONOMY IN TEXTILES: RESYNTEX AND THE EUROPEAN UNION.

Author

Aneja, A., Pal, R., Kupka, K., and Militky, J.

Subjects
GLYCERIN, SELF-reliant living, VALUE chains, WASTE recycling
Abstract

Europe is at crossroads in terms of growth and living standards. The nexus between circular economy, RESYNTEX and textile provides direction and opportunity for seamless prosperity. The current strategy consisting of a linear economy for resource utilization, a surprisingly wasteful model of value creation, is leading to decline in prosperity and concomitant global influence. It must develop a more resource savvy circular economy, with the biological and mineral nutrients of modern society continuously circulating. Rather than face a bleak and uncertain future dependent on resources from overseas, Europe needs to develop technologies towards self-sufficiency in energy and water and keep materials required for consumption flowing [1], This will insure reduction in virgin resources and treat waste as a valuable input rather than a burden for welfare of society and the environment. RESYNTEX, the European Union’s Horizon 2020 research and innovation funded program, will produce secondary raw materials from blends and pure components of unwearable textile waste and is expected to have a strong circular economy focus. The project will develop and demonstrate a strategic design for closed loop textile recycling throughout the value chain. [ABSTRACT FROM AUTHOR]

Published
2016

28. SORPTION PROPERTIES OF IRON IMPREGNATED ACTIVATED CARBON PREPARED FROM ACRYLIC FIBROUS WASTES.

Author

Naeem, S., Baheti, V., Militky, J., and Wiener, J.

Subjects
METHYLENE blue, ACRYLIC fibers, IRON chlorides, CHARCOAL, POROSITY
Abstract

In this work, waste acrylic fiber web was impregnated with iron chloride solution and another web without salt impregnation was carbonized by heating under a layer of charcoal through physical activation in a high temperature furnace to produce activated carbon and iron impregnated activated carbon (FeAC). After stabilization at heating rate 50°C.hr-1 the carbonization process was performed at the heating rate of 300°C.hr-1. Both the webs were heated to 1200°C with no holding time for getting a higher surface area and porosity. Both the samples were characterized by using BET surface area, SEM, EDX and TGA for determining the surface area, microscopic structure and content of different elements. Iron impregnated activated carbon (FeAC) was later used as adsorbent for the removal of methylene blue from an aqueous solution. The dye removal percentage and adsorption capacity was checked at different experimental parameters like different dye concentrations, adsorbent dosage, stirring speed and different pH. [ABSTRACT FROM AUTHOR]

Published
2016

29. EFFECT OF 3-DIMENSIONAL KNITTED SPACER FABRIC CHARACTERISTICS ON ITS THERMAL AND COMPRESSION PROPERTIES.

Author

Arumugam, V., Mishra, R., Militky, J., Kremenakova, D., Salacova, J., Venkatraman, M., and Subramanian, V. B. Ramanisanthi

Subjects
CLOTHING & dress, POLYPROPYLENE, PERMEABILITY, RAW materials, ELECTRIC conductivity
Abstract

Spacer fabrics consist of three layers of fabrics which have ability to complement and maximize the essential thermal clothing comfort for various applications. Clothing comfort is also defined by the tactile sensations felt by a subject through the mechanical interactions between the body and the garment. In this research work, the thermal and compression properties of polyester/polypropylene and polyester/polypropylene/Lycra blended knitted spacer fabrics have been studied in relation to density, thickness, stitch density and type of spacer yarns (monofilament or multifilament). The objective of this study was to determine the influence of spacer fabric factors such as the constituent fibres, density, thickness, stitch density, type of spacer yarns and knit characteristics on the fabrics properties such as air permeability, relative water vapour permeability, thermal conductivity and work of compression. The experiment results show that the thermal conductivity and effusivity are closely related to the fabric characteristics such as the raw materials, type of spacer yarn, density, thickness and tightness of surface layer. Also, this study established that the compression resilience of the fabric made up of monofilament spacer yarn was better than that of the multifilament spacer yarn in spacer knitted fabrics. [ABSTRACT FROM AUTHOR]

Published
2016

33. Ozone Effect On the Properties of Aramid Fabric

Author

Wang Yan, Wiener Jakub, Militky Jiri, Mishra Rajesh, and Zhu Guocheng

Subjects
ozone treatment, aramid fabric, wicking effect, mechanical properties, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

The limitation of aramid fiber is its surface property, which results in its very poor interfacial adhesion to most of commercial resins. In order to improve the surface property of the aramid fiber, ozone treatment was carried out in this work. The aramid fabrics were evaluated in terms of surface morphology, wicking effect, tensile property, and ball bursting test. The results showed that the surface morphology of aramid fabrics did not undergo an obvious change; the wicking effect increased slightly with an increase in ozone treatment time; the tenacity and elongation of aramid fibers and fabrics did not significant change after ozone treatment, but the tenacity and elongation of aramid yarns showed significant improvement after ozone treatment, and increased with the increase of ozone treatment time; the ball bursting load and penetration displacement had a slight increase as well after ozone treatment. Therefore, ozone treatment could be one method to improve the surface property of the aramid fiber.

Published
2017
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34. 3D Numerical Simulation of Laminar Flow and Conjugate Heat Transfer through Fabric

Author

Zhu Guocheng, Kremenakova Dana, Wang Yan, Militky Jiri, Mishra Rajesh, and Wiener Jakub

Subjects
numerical simulation, fluid flow, heat transfer, heat convection, heat transfer coefficient, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

The air flow and conjugate heat transfer through the fabric was investigated numerically. The objective of this paper is to study the thermal insulation of fabrics under heat convection or the heat loss of human body under different conditions (fabric structure and contact conditions between the human skin and the fabric). The numerical simulations were performed in laminar flow regime at constant skin temperature (310 K) and constant air flow temperature (273 K) at a speed of 5 m/s. Some important parameters such as heat flux through the fabrics, heat transfer coefficient, and Nusselt number were evaluated. The results showed that the heat loss from human body (the heat transfer coefficient) was smallest or the thermal insulation of fabric was highest when the fabric had no pores and no contact with the human skin, the heat loss from human body (the heat transfer coefficient) was highest when the fabric had pores and the air flow penetrated through the fabric.

Published
2017
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35. Investigation Of Sound Absorption Properties Of Bark Cloth Nonwoven Fabric And Composites

Author

Rwawiire Samson, Tomkova Blanka, Gliscinska Eulalia, Krucinska Izabella, Michalak Marina, Militky Jiri, and Jabbar Abdul

Subjects
bark cloth, acoustic properties, epoxy, composites, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

The quest for sound-absorbing materials that are not only environmentally friendly, but also sustainable is the foremost reason for natural fibre-acoustic materials. Bark cloth is a natural non-woven fabric that is largely produced from Ficus trees. An exploratory investigation of bark cloth a non-woven material and its reinforcement in epoxy polymer composites has been fabricated and investigated for the sound absorption properties so as to find the most suitable applications and also to see whether bark cloth can be used in some applications in place of man-made fibres. Three types of material species were investigated with their respective composites. The fibre morphology showed bark cloth to be a porous fabric that showed promising sound absorption properties at higher frequencies. The sound absorption results of four-layer material selections of Ficus natalensis, Ficus brachypoda and Antiaris toxicaria bark cloth showed sound absorption coefficient of 0.7; 0.71 and 0.91 at f > 6400 Hz, respectively. The bark cloth reinforced laminar epoxy composites had reduced sound absorption coefficients, which ranged from 0.1 to 0.35, which was attributed to decreased porosity and vibration in the bark cloth fibre network.

Published
2015
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36. Flex Fatigue Behavior Of Plastic Optical Fibers With Low Bending Cycles

Author

Huang Juan, Křemenáková Dana, and Militký Jiří

Subjects
flex fatigue, plastic optical fibres, bending cycles, pretension, residual modulus, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

Flex fatigue behaviour of plastic optical fibres (POFs) with the diameters of 0.2 and 0.3 mm under different pretensions is measured with fatigue life curve by flexometer. The fatigue sensitivity coefficient is calculated by the linear fitting curve of normalised stress versus logarithm of bending cycles. The residual modulus is investigated during the flex fatigue processes. The results exhibit the exponential relationship between applied pretension and numbers of bending cycles at break. It is indicated that the flex fatigue of POFs might be sensitive with high swing angle or swing speed. There is an evident loss of modulus for two POFs with pretensions of 4 and 10% of ultimate tensile strength during 10-times bending cycles. The values of residual modulus of two POFs almost keep constant after 10-times bending cycles.

Published
2015
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37. Evaluation of Illumination Intensity of Plastic Optical Fibres with Tio2 Particles by Laser Treatment

Author

Huang Juan, Křemenáková Dana, Militký Jiří, and Zhu Guocheng

Subjects
plastic optical fibres, illumination intensity, attenuation, tio2 particles, surface roughness, laser treatment, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

CO2 laser treatment can increase the surface roughness of plastic optical fibres (POFs) with the diameter of 0.5 mm and enhance the input intensity and attenuation coefficient accordingly, which is supposed to weaken the side emission of POFs in long distance above 375 mm. TiO2 particles were applied to improve the increasing optical loss of POFs by laser treatment. POFs were first modified with fine TiO2 particles and then treated by CO2 laser with the pixel time from 30 to 120 ìs. The surface morphology was observed by scanning electron microscopy to investigate the changes of micro-structure before and after laser treatment and the distribution of TiO2 particles. The illumination intensity and attenuation coefficient were calculated and compared in two methods. It is visible that the evaluation by model LLF2 with two parts is more suitable for the fitting of experimental data and shows higher input intensity and lower attenuation than that by standard power function. Both the evaluation methods exhibit that the utilization of TiO2 particles could play an active role in the enhancement of side emission of POFs treated by CO2 laser.

Published
2015
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38. Air permeability of polyester nonwoven fabrics

Author

Zhu Guocheng, Kremenakova Dana, Wang Yan, and Militky Jiri

Subjects
air permeability, non-woven fabric, porosity, thickness, Textile bleaching, dyeing, printing, etc., TP890-933
Abstract

Air permeability is one of the most important properties of non-woven fabrics in many applications. This paper aims to investigate the effects of thickness, porosity and density on the air permeability of needle-punched non-woven fabrics and compare the experimental values with two models which are based on hydraulic radius theory and drag theory, respectively. The air permeability of the samples was measured by an air permeability tester FX3300. The results showed that the air permeability of non-woven fabrics decreased with the increase in thickness and density of samples, increased with the increase of porosity, and the air permeability was not directly proportional to the pressure gradient. Meanwhile, the prediction model based on hydraulic radius theory had a better agreement with experimental values than the model based on drag theory, but the values were much higher than the experimental results, especially for higher porosity and higher pressure gradient.

Published
2015
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39. Mechanical behavior of nanocellulose coated jute/green epoxy composites

Author

Jabbar, A, Militky, J, Ali, A, and Usman, M

Abstract

The present study was aimed to investigate the effect of nanocellulose coating on the mechanical behavior of jute/green epoxy composites. Cellulose was purified from waste jute fibers, converted to nanocellulose by acid hydrolysis and subsequently 3, 5 and 10 wt % of nanocellulose suspensions were coated over woven jute reinforcement. The composites were prepared by hand layup and compression molding technique. The surface topologies of treated jute fibers, jute cellulose nanofibrils (CNF), nanocellulose coated jute fabrics and fractured surfaces of composites were characterized by scanning electron microscopy (SEM). The prepared composites were evaluated for tensile, flexural, fatigue and fracture toughness properties. The results revealed the improvement in tensile modulus, flexural strength, flexural modulus, fatigue life and fracture toughness of composites with the increase in concentration of nanocellulose coating over jute reinforcement except the decrease in tensile strength.

Published
2017

40. Micro- and Nanoplastics Produced from Textile Finishes: A Review.

Author

Ali A, Qamer S, Shahid M, Tomkova B, Khan MZ, Militky J, Wiener J, and Venkataraman M

Abstract

The problem of increasing plastic pollution has emerged as a significant societal issue. Plastics can originate from various sources, and there is growing concern among researchers to study and investigate this new category of pollution. The plastic waste is found at the macro, micro, and nanoscale, and its study has had great significance according to the perspective of posing hazardous impacts on living organisms. Given the high demand for functional textiles, the textile industries are supporting the coating of different polymeric based finishes on the surface of textile products. The plastic debris emitted from these coated finishes are in the ranges of nanometric scale, so-called polymeric nanoplastics (PNPs). With the new terminology, polymeric nanoplastics (PNPs) released from textile finishes or coatings are being increasingly mentioned, and the term fibrous microplastics (FMPs) can be seen as outdated. This study is based on an intensive review of a very novel category of debris plastics (PNPs) mostly produced from textile finishes or coatings. In fact, FMPs and PNPs released from synthetic textiles and textiles coated with plastic-based finishes during washing activities are considered to be a major cause that contributes to the current overall load of microplastics (MPs) in the environment. A link between the concentration of NPs from textile fibers and NPs from textile polymeric-based coatings in freshwater and sediments within a particular local setting and the extent of activities of the textile industry has been demonstrated. Invested efforts have been paid to consider and concentrate on plastic pollution (nanoplastics from textile polymeric coatings). We also summarize existing methodologies to elucidate the identification and proactive quantification of nanoplastics shed from the textile polymeric coatings. To this end, more than 40 studies have been done to identify the physical, chemical, and mechanical parameters and to characterize nanoplastics.

Published
2024
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41. Effect of Drying Methods on the Thermal and Mechanical Behavior of Bacterial Cellulose Aerogel.

Author

Sozcu S, Frajova J, Wiener J, Venkataraman M, Tomkova B, and Militky J

Abstract

Bacterial cellulose (BC) presents significant promise as a biomaterial, boasting unique qualities such as exceptional cellulose purity, robust mechanical strength, heightened crystalline structure, and biodegradability. Several studies have highlighted specific effects, such as the impact of dehydration/rehydration on BC tensile strength, the influence of polymer treatment methods on mechanical properties, the correlation between microorganism type, drying method, and Young's modulus value, and the relationship between culture medium composition, pH, and crystallinity. Drying methods are crucial to the structure, performance, and application of BC films. Research findings indicate that the method used for drying can influence the mechanical properties of BC films, including parameters such as tensile strength, Young's modulus, and water absorption capacity, as well as the micromorphology, crystallinity, and thermal characteristics of the material. Their versatility makes them potential biomaterials applicable in various fields, including thermal and acoustic insulation, owing to their distinct thermal and mechanical attributes. This review delves into the thermal and mechanical behavior of bacterial cellulose aerogels, which are profoundly impacted by their drying mechanism.

Published
2024
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42. Structure, properties, and fabric applicability of sustainable paper yarn with high washing stability.

Author

Memon H, Hu D, Wu L, Wang Y, Yao J, Militky J, Kremenakova D, and Zhu G

Abstract

This research provides an in-depth assessment of two paper yarn variants, examining their structural, functional, and performance characteristics. These yarns demonstrated favorable properties, including suitable linear density, twist, typical cellulosic functional groups as confirmed by Infrared spectroscopy, minimal hairiness, moisture transfer, and creditable mechanical strength. These yarns have flat layered cross-sections and grooved longitudinal surfaces. In addition, a low hairiness index (1.3-1.33) further acknowledged their smooth surface. Their remarkable evenness (15.86% and 7.08%) supported their effective wicking properties. Despite average breaking strength (0.77 cN/dTex and 1.05 cN/dTex) and moderate elongation, these yarns exhibited exceptional water-washing resistance and retained over 89% breaking strength after 15 washes. This study ranks these paper yarns as highly suitable for durable clothing fabrics, providing promising sustainable alternatives in the textile industry., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published
2024
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43. Incorporation of Cellulose-Based Aerogels into Textile Structures.

Author

Sozcu S, Venkataraman M, Wiener J, Tomkova B, Militky J, and Mahmood A

Abstract

Given their exceptional attributes, aerogels are viewed as a material with immense potential. Being a natural polymer, cellulose offers the advantage of being both replenishable and capable of breaking down naturally. Cellulose-derived aerogels encompass the replenish ability, biocompatible nature, and ability to degrade naturally inherent in cellulose, along with additional benefits like minimal weight, extensive porosity, and expansive specific surface area. Even with increasing appreciation and acceptance, the undiscovered possibilities of aerogels within the textiles sphere continue to be predominantly uninvestigated. In this context, we outline the latest advancements in the study of cellulose aerogels' formulation and their diverse impacts on textile formations. Drawing from the latest studies, we reviewed the materials used for the creation of various kinds of cellulose-focused aerogels and their properties, analytical techniques, and multiple functionalities in relation to textiles. This comprehensive analysis extensively covers the diverse strategies employed to enhance the multifunctionality of cellulose-based aerogels in the textiles industry. Additionally, we focused on the global market size of bio-derivative aerogels, companies in the industry producing goods, and prospects moving forward.

Published
2023
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44. Utilization of spent coffee grounds as fillers to prepare polypropylene composites for food packaging applications.

Author

Song W, Yang Y, Cheng X, Jiang M, Zhang R, Militky J, and Cai Y

Abstract

Biomass-derived wastes as the additive of nondegradable plastics have been paid more attention due to the ever-growing environmental pollution and energy crisis. Herein, the spent coffee grounds (SCG) have been used as fillers in polypropylene (PP) after the heat treatment to realize its recycling utilization. The effect of the heat treatment atmosphere on the properties of the obtained SCG and SCG/PP composites has been investigated systematically. The results show that the residual coffee oil can be removed more thoroughly under an air atmosphere than under a nitrogen atmosphere at a relatively low cost and an eco-friendly process. The lower residual oil rate of SCG is beneficial to improve the comminution and further enhance the affinity with the PP matrix. The obtained SCG/PP composites hold lower water absorption, higher hydrophobicity, and better mechanical properties, implying their potential applications in the field of food packaging. RESEARCH HIGHLIGHTS: Spent coffee grounds have been used as fillers in PP after the heat treatment. The heat treatment in the air is more favorable for the removal of the coffer oil of SCG. The low residual oil rate in SCG can improve its comminution and affinity with PP. The SCG/PP composites hold excellent performances for food packaging applications., (© 2023 Wiley Periodicals LLC.)

Published
2023
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45. Sandwich Fibrous PEG Encapsulations for Thermal Energy Storage.

Author

Yang K, Zhang X, Venkataraman M, Wiener J, Tan X, Zhu G, Yao J, and Militky J

Abstract

Phase change materials (PCMs) textiles have been developed for personal thermal management (PTM) while limited loading amount of PCMs in textiles reduced thermal buffering effect. In this work, we proposed a sandwich fibrous encapsulation to store polyethylene glycol (PEG) with PEG loading amount of 45 wt %, which consisted of polyester (PET) fabrics with hydrophobic coating as protection layers, polyurethane (PU) nanofibrous membranes as barrier layers and PEG-loaded viscose fabric as a PCM-loaded layer. The leakage was totally avoided by controlling weak interfacial adhesion between protection layer and melting PEG. The sandwich fibrous PEG encapsulations had an overall melting enthalpy value ranging from 50 J/g to 78 J/g and melting points ranging from 20 °C to 63 °C by using different PEGs. Besides, introduction of Fe microparticles in PCM-loaded layer enhanced thermal energy storage efficiency. We believe that the sandwich fibrous PEG encapsulation has a great potential in various fields., (© 2023 Wiley-VCH GmbH.)

Published
2023
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46. Structural Analysis of Phase Change Materials (PCMs)/Expanded Graphite (EG) Composites and Their Thermal Behavior under Hot and Humid Conditions.

Author

Yang K, Zhang X, Venkataraman M, Wiener J, Palanisamy S, Sozcu S, Tan X, Kremenakova D, Zhu G, Yao J, and Militky J

Abstract

Expanded graphite (EG) has been used to store phase change materials (PCM) to enhance thermal conductivity and avoid leakage. However, systematic investigation on physical structure of various embedded PCMs in EG is not reported. Besides, the effect of environment on thermal behavior of PCM/EG composites has not been investigated yet. In this work, three common PCMs (including myristic acid (MA), polyethylene glycol (PEG) and paraffin wax (PW)) were embedded in EG and three PCM/EG composites were obtained. As a result, capillary force between EG and PCMs supported encapsulation of PCMs in EG. PCM/EG composites had narrower phase change range while supercooling degree values were different when various PCMs were used. Besides, the hot and humid environment had a side effect on thermal energy storage of PCMs and PCM/EG composites. The inherent hydrophilicity of PCMs was essential for resistance against side effect of moisture on thermal energy storage., (© 2023 Wiley-VCH GmbH.)

Published
2023
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48. Effects of ultrasonic-assisted nickel pretreatment method on electroless copper plating over graphene.

Author

Peng Q, Tan X, Venkataraman M, Militky J, Xiong W, Mahendran AR, Lammer H, and Kejzlar P

Abstract

In this paper, copper deposited graphene was fabricated through electroless plating. A novel and facile pretreatment method is introduced based on ultrasonic treatment with nickel nano-particles as the catalytic core. This method abandons the sensitization and activation process in the traditional pretreatment that reduces the time and economic cost dramatically. The static contact angle was determined by an Olympus BX51M optical microscope. The surface morphology and plating composition were characterized via scanning electron microscope (SEM) and energy dispersive spectroscopy (EDS), the infrared radiation (IR) transmittance spectra of the copper plated graphene were measured by Fourier transform infrared spectroscopy (FTIR), the layer structure was measured by Raman spectrum, the phase identification was identified by X-ray diffraction (XRD), the thermogravimetric analysis (TGA) (Q5000 TA instruments, USA) was carried out to detect the thermal characteristics. The electrical resistivity of copper-plated graphene was performed in an especially designed apparatus. The results show that the surface of graphene is coarsened, and the size is reduced after ultrasonic treatment, which can facilitate the nucleation and fine particle distribution of metal. The electroless plated efficiency of copper of the nickel pretreatment copper-plated graphene is 64.27 wt%, higher than that of generic copper-plated graphene at 58.62 wt%. The resistivity decreases rapidly from 1.69 × 10 -2  Ω cm of the original Gr to 0.79 × 10 -2  Ω cm of Cu/Ni@Gr due to the large number of fine copper particles scattered around the graphene., (© 2022. The Author(s).)

Published
2022
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49. The Comparative Performance of Phytochemicals, Green Synthesised Silver Nanoparticles, and Green Synthesised Copper Nanoparticles-Loaded Textiles to Avoid Nosocomial Infections.

Author

Tahir MF, Khan MZ, Attacha S, Asim N, Tayyab M, Ali A, Militky J, and Tomková B

Abstract

In the current study, a sustainable approach was adopted for the green synthesis of silver nanoparticles, green synthesis of copper nanoparticles, and the investigation of the phytochemical and biological screening of bark, leaves, and fruits of Ehretia acuminata (belongs to the family Boraginaceae). Subsequently, the prepared nanoparticles and extracted phytochemicals were loaded on cotton fibres. Surface morphology, size, and the presence of antimicrobial agents (phytochemicals and particles) were analysed by scanning electron microscopy, dynamic light scattering, and energy-dispersive X-ray spectroscopy. The functional groups and the presence of particles (copper and silver) were found by FTIR and XRD analyses. The coated cotton fibres were further investigated for antibacterial (qualitative and quantitative), antiviral, and antifungal analysis. The study revealed that the herb-encapsulated nanoparticles can be used in numerous applications in the field of medical textiles. Furthermore, the utility of hygienic and pathogenic developed cotton bandages was analysed for the comfort properties regarding air permeability and water vapour permeability. Finally, the durability of the coating was confirmed by measuring the antibacterial properties after severe washing.

Published
2022
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50. Fabrication and Performance of Phase Change Thermoregulated Fiber from Bicomponent Melt Spinning.

Author

Liu Z, Hu D, Yao J, Wang Y, Zhang G, Křemenáková D, Militky J, Wiener J, Li L, and Zhu G

Abstract

High thermostability of phase change materials is the critical factor for producing phase change thermoregulated fiber (PCTF) by melt spinning. To achieve the production of PCTF from melt spinning, a composite phase change material with high thermostability was developed, and a sheath-core structure of PCTF was also developed from bicomponent melt spinning. The sheath layer was polyamide 6, and the core layer was made from a composite of polyethylene and paraffin. The PCTF was characterized by scanning electron microscopy (SEM), thermal analysis (TG), Fourier Transform Infra-Red (FTIR), X-ray diffraction (XRD), differential scanning calorimetry (DSC) and fiber strength tester. The results showed that the core material had a very high thermostability at a volatilization temperature of 235 °C, the PCTF had an endothermic and exothermic process in the temperature range of 20-30 °C, and the maximum latent heat of the PCTF reached 20.11 J/g. The tenacity of the PCTF gradually decreased and then reached a stable state with the increase of temperature from -25 °C to 80 °C. The PCTF had a tenacity of 343.59 MPa at 0 °C, and of 254.63 MPa at 25 °C, which fully meets the application requirements of fiber in textiles.

Published
2022
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