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An investigation of process parameters on colour during the dyeing of polyester in supercritical carbon dioxide media / Idil Yigit in COLORATION TECHNOLOGY, Vol. 137, N° 6 (12/2021)
[article]
Titre : An investigation of process parameters on colour during the dyeing of polyester in supercritical carbon dioxide media Type de document : texte imprimé Auteurs : Idil Yigit, Auteur ; Semiha Eren, Auteur ; Hande Ozcan, Auteur ; Ozan Avinc, Auteur ; Hüseyin Aksel Eren, Auteur Année de publication : 2021 Article en page(s) : p. 625-644 Note générale : Bibliogr. Langues : Anglais (eng) Catégories : Dioxyde de carbone
Fibres polyesters
Fluides supercritiques
Teinture -- Fibres textiles synthétiquesIndex. décimale : 667.3 Teinture et impression des tissus Résumé : Innovative supercritical carbon dioxide (scCO2) treatment conditions in fluidised media technology were examined for polyester dyeing. The different dyeing processes in scCO2 media were carried out under a constant dyeing temperature of 120°C (at pressures ranging from 9 to 29 MPa), a constant pressure of 25 MPa (at dyeing temperatures ranging from 40 to 140°C) and a constant density range of 500-550 kg/m3 (at combinations of dyeing temperatures ranging from 80 to 130°C and dyeing pressures ranging from 18 to 28 MPa). The constant dyeing temperature, constant dyeing pressure and constant density (120°C, 25 MPa, 500-550 kg/m3, respectively) were selected according to the best results in the literature and recommendations from industrial applications for polyester dyeing in scCO2 media. The different conditions of the studied parameters and their influence are discussed. Colour difference (ΔE) and colour strength (K/S), as well as washing fastness and bursting strength properties, were investigated and compared. Acceptable colour properties (similar to those for standard [control reference] fabric: dyed in scCO2 media at 120°C, 25 MPa pressure and 506 kg/m3 density for 90 minutes) on polyester fabric, with commercially acceptable and quite high washing fastness levels and comparable bursting strength values (similar to those for standard fabric without significant or drastic strength loss), could be achieved with the following scCO2 dyeing processes: at a lower dyeing pressure with the same dyeing temperature (in scCO2 media at 120°C, 21 MPa pressure and 423 kg/m3 density for 90 minutes), at a lower dyeing temperature with the same dyeing pressure (in scCO2 media at 100°C, 25 MPa pressure and 588 kg/m3 density for 90 minutes) and at both a lower dyeing pressure and a lower dyeing temperature with a constant density range of 500-550 kg/m3 (in scCO2 media at 110°C, 24 MPa pressure and 526 kg/m3 density for 90 minutes). Satisfactory and successful dyeing properties and performance similar to polyester fibre dyed under standard scCO2 dyeing conditions with less energy consumption could be achieved with the correct scCO2 dyeing process parameter optimisation. For instance, the dyeing process in the scCO2 environment at the same dyeing temperature with the standard scCO2 dyeing process (at 120°C), but with a lower dyeing pressure (at 21 vs 25 MPa), resulted in a 17 kWh decrease in energy consumption. In conclusion, it is very important to choose the correct dyeing pressure to obtain level dyeing in the polyester dyeing process carried out in a scCO2 environment and to achieve a reduction in energy consumption during dyeing in a scCO2 medium. Note de contenu : - MATERIALS AND METHODS : Materials - Methods
- RESULTS AND DISCUSSION : Constant temperature experiment results - Constant density range experiment resultsDOI : https://doi.org/10.1111/cote.12553 En ligne : https://onlinelibrary.wiley.com/doi/epdf/10.1111/cote.12553 Format de la ressource électronique : Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=36793
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Code-barres Cote Support Localisation Section Disponibilité 23068 - Périodique Bibliothèque principale Documentaires Disponible Biophysical concept for textile skin protection / Boris Mahltig in CHEMICAL FIBERS INTERNATIONAL, Vol. 71, N° 3 (09/2021)
[article]
Titre : Biophysical concept for textile skin protection Type de document : texte imprimé Auteurs : Boris Mahltig, Auteur ; Ellen Bendt, Auteur ; Thomas Grethe, Auteur ; Oliver Hess, Auteur ; Thomas Weide, Auteur ; Marcus Krieg, Auteur Année de publication : 2021 Article en page(s) : p. 138-140 Note générale : Bibliogr. Langues : Anglais (eng) Catégories : Biophysique
Dioxyde de titane
Fibres cellulosiques
Fibres polyesters
Matériaux -- Propriétés fonctionnelles
Protection cutanée
Textiles et tissus à usages médicaux
Vêtements de protection
Vêtements de sport
Vêtements de travailIndex. décimale : 677.47 Non cellulosiques : Nylon, acryliques, polyesters, vinyles Résumé : Analogous to successfully commercializing cosmetic products, functionalized textiles following a biophysical concept can also have a positive impact in the field of skin care. Furthermore, such functional textiles are advantageous compared to traditional cosmetic products, because of higher effectiveness and sustainability. In future, fields of applications can be found in the areas of workwear, wellness and sports apparel. Especially textiles with the focus on outdoor applications are of high potential, because here the physical category with the radiation protection is of special relevance. Note de contenu : - Biophysical concept
- Physical category
- Biological category
- Fig. 1 : Categories of factors influencing the human skin
- Fig. 2 : Schematic drawing of the combination of embedded absorber components and a finishing application
- Fig. 3 : Transmission spectra of polyester fabrics differing in coloration
- Fig. 4 : Microscopic image of a lyocell fiber containing 2% titanium dioxide ; this image is recorded by using scanning electron microscopy
- Fig. 5 : Transmission spectra recorded fromknitted lyocell fabrics ; the fabrics ; the fabrics are modified with different optical active additivesEn ligne : https://drive.google.com/file/d/15tYOa0vE1X9z7w3eXmJiCvwnyOYRaWVR/view?usp=drive [...] Format de la ressource électronique : Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=36235
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Code-barres Cote Support Localisation Section Disponibilité 22910 - Périodique Bibliothèque principale Documentaires Disponible A coloured polyester fabric with antimicrobial properties conferred by copper nanoparticles / Sepideh Afshari in COLORATION TECHNOLOGY, Vol. 135, N° 6 (12/2019)
[article]
Titre : A coloured polyester fabric with antimicrobial properties conferred by copper nanoparticles Type de document : texte imprimé Auteurs : Sepideh Afshari, Auteur ; Majid Montazer, Auteur ; Tina Harifi, Auteur ; Mahnaz Mahmoudi Rad, Auteur Année de publication : 2019 Article en page(s) : p. 427-438 Note générale : Bibliogr. Langues : Anglais (eng) Catégories : Antimicrobiens
Cuivre
Fibres polyesters
Fibres textiles -- Propriétés mécaniques
Fibres textiles synthétiques -- Analyse
Hydroxyde de sodiumL'hydroxyde de sodium, appelé également soude caustique7, est un corps chimique composé minéral de formule chimique NaOH, qui est à température ambiante un solide ionique. Fusible vers 318 °C, il se présente généralement sous forme de pastilles, de paillettes ou de billes blanches ou d'aspect translucide, corrosives et très hygroscopiques. Il est très soluble dans l'eau et légèrement soluble dans l'éthanol.
La solution d'hydroxyde de sodium, souvent appelée soude, est une solution aqueuse transparente. Concentrée, elle est corrosive et souvent appelée lessive de soude.
Les propriétés chimiques de l'hydroxyde de sodium sont surtout liées à l'ion hydroxyde HO- qui est une base forte. En outre, l'hydroxyde de sodium réagit avec le dioxyde de carbone (CO2) de l'air et se carbonate.
La solubilité de la soude caustique dans l'eau augmente avec la température, à pression constante ou ambiante.
Nanoparticules
Polyvinylpyrrolidone
Sulfate de cuivreLe sulfate de cuivre est formé par la combinaison d'un ion cuivre (Cu2+) et d'un ion sulfate (SO42- ). Il a donc pour formule : CuSO4. Il est commercialisé soit anhydre, avec cette formule, soit pentahydraté et a alors la formule CuSO4,5H2O, comme sur la figure ci-contre. Il existe également avec une ou trois molécules d'eau d'hydratation.
FABRICATION : Le sulfate de cuivre est obtenu industriellement comme sous-produit du décapage chimique du cuivre par l'acide sulfurique. Cet acide n'attaquant pas le cuivre métallique, seule sa forme oxydée présente en surface sous forme d'oxydes, de carbonates (vert de gris) et autres, passe en solution. Dans ces conditions, seul le degré d'oxydation II (forme cuivrique) est stable.
UTILISATION : Une des principales utilisations actuelle du sulfate de cuivre est la préparation (industrielle ou non) de fongicides pour l'agriculture y compris biologique. La forme la plus courante est la bouillie bordelaise constituée de sulfate de cuivre neutralisé par la chaux.
TOXICITE : Le sulfate de cuivre est un produit toxique.
Surfaces antimicrobiennes
UltrasonsIndex. décimale : 667.3 Teinture et impression des tissus Résumé : In this study, we aimed to produce a coloured polyester fabric through the in situ sonosynthesis of copper nanoparticles using copper sulphate, hydrazine, sodium hydroxide and polyvinylpyrrolidone. The treated fabrics were characterised by X-ray diffraction, field emission scanning electron microscopy, energy-dispersive X-ray spectroscopy and elemental mapping. Moreover, mechanical properties, wettability and antibacterial/antifungal activities of the treated fabrics were evaluated. Central composite design based on the response surface methodology was used to study the effect of copper sulphate, hydrazine hydrate and sodium hydroxide on the weight gain and colour of the treated fabrics. In addition to their roles as reducing agents, hydrazine and sodium hydroxide were responsible for the simultaneous aminolysis and hydrolysis of polyester, increasing the adsorption of nanoparticles on the surface. According to the results, the reddish brown samples treated with copper nanoparticles showed excellent antibacterial and antifungal efficiencies, improved tensile strength and decreased wettability. Note de contenu : - EXPERIMENTAL : Materials - Preparation - Test methods
- RESULTS AND DISCUSSIONS : In situ sonosynthesis of copper nanoparticles on polyester fabric - Weight and colour changes - XRD - FESEM and EDX micrographs - FTIR analysis - The effect of ultrasound - Antibacterial/antifungal activities - Mechanical properties - WettabilityDOI : 10.1111/cote.12430 En ligne : https://onlinelibrary.wiley.com/doi/epdf/10.1111/cote.12430 Format de la ressource électronique : Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=33375
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Code-barres Cote Support Localisation Section Disponibilité 21322 - Périodique Bibliothèque principale Documentaires Disponible Dyeing properties of recycled polyester DTY / Lu Tingting in CHEMICAL FIBERS INTERNATIONAL, Vol. 69, N° 2 (06/2019)
[article]
Titre : Dyeing properties of recycled polyester DTY Type de document : texte imprimé Auteurs : Lu Tingting, Auteur ; Yin Yanhua, Auteur ; Gan Xuehui, Auteur ; Ji Feng, Auteur ; Wang Ni, Auteur ; Zhang Ruiyun, Auteur Année de publication : 2019 Article en page(s) : p. 96-99 Note générale : Bibliogr. Langues : Anglais (eng) Catégories : Colorants dispersés Catégorie de colorants très peu solubles dans l'eau, utilisés à l'origine comme colorants pour l'acétate, et qui généralement sont appliqués sous forme de suspensions aqueuses de faible concentration.Les colorants dispersés sont largement utilisés dans la teinture de la plupart des fibres manufacturées, surtout le polyester.
Fibres polyesters
Polymères -- Recyclage
Teinture -- Fibres textiles synthétiques
TexturationProcédé de frisure, conférant des boucles au hasard, ou modifiant d'une autre manière un fil de filament continu afin d'augmenter son pouvoir couvrant, sa résilience, sa résistance à l'abrasion, sa chaleur, son pouvoir d'isolation thermique, son pouvoir d'absorption d'humidité, ou pour lui donner une texture de surface différente. Les procédés de texturation peuvent être regroupés en six catégories.Index. décimale : 677.4 Textiles artificiels Résumé : In this paper, the dyeing properties of physical recycled, chemical recycled and virgin polyester DTY fabrics were studied by using 3 kinds of low-temperature disperse dyes: disperse red FB, disperse yellow E-3G and disperse blue 2BLN. The effects of dyeing temperature, dye concentration and holding time on the K/S value and dye-uptake of the 3 kinds of polyester DTY fabrics were investigated. The results showed that the order of dyeing property from good to bad is that the physical recycled polyester DTYfabric> virgin polyester DTYfabric> chemical recycled polyester DTYfabric ; when the dyeing temperature was 120 °C, the dye concentration was 2% owf, and the holding time was 40 min, all 3 kinds of polyester DTY fabrics had better color strength and higher dye-uptake. Note de contenu : - EXPERIMENTAL : Materials - Dyeing - Measurements
- RESULTS AND DISCUSSIONS : Effect of dyeing temperature on dyeing properties - Effect of dye concentration on dyeing properties - Effect of holding time on dyeing properties
- Table 1 : Crystallinity of three kinds of polyester DTY
- Table 2 : Dyeing conditions
- Fig. 1 : Dyeing process curve
- Fig. 2 : K/S values and dye-uptakes of the fabrics for different dyeing temperatures : a : Virgin polyester DTY fabric ; b : Physical recycled polyester DTY fabric ; c : Chemical recycled polyester DTY fabric
- Fig. 3 : K/S values and dye-uptakes on the fabrics for different dye concentrations : a : Virgin polyester DTY fabric ; b : Physical recycled polyester DTY fabric ; c : Chemical recycled polyester DTY fabric
- Fig. 4 : K/S values and dye-uptakes on the fabrics for different holding times : a : Virgin polyester DTY fabric ; b : Physical recycled polyester DTY fabric ; c : Chemical recycled polyester DTY fabricEn ligne : https://drive.google.com/file/d/1sosK4apyg5cfBbuYkQ6mPQ-OuiwfOep6/view?usp=drive [...] Format de la ressource électronique : Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=32776
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Code-barres Cote Support Localisation Section Disponibilité 21014 - Périodique Bibliothèque principale Documentaires Disponible Eco-friendly and sustainable fibers for Sporttech / Mayur Basuk in CHEMICAL FIBERS INTERNATIONAL, Vol. 72, N° 4 (11/2022)
[article]
Titre : Eco-friendly and sustainable fibers for Sporttech Type de document : texte imprimé Auteurs : Mayur Basuk, Auteur ; Ravindra V. Adivarekar, Auteur Année de publication : 2022 Article en page(s) : p. 188-189 Note générale : Bibliogr. Langues : Anglais (eng) Catégories : Algues
Chanvre et constituantsLe chanvre ou chanvrier (Cannabis sativa L.) est la seule espèce du genre botanique Cannabis. Ce terme latin est souvent utilisé aussi comme nom vernaculaire pour distinguer les variétés de chanvre cultivé à usage industriel des variétés de cannabis à usage récréatif ou médical. C'est une espèce de plante annuelle, de la famille des Cannabaceae. La graine de chanvre s'appelle le chènevis.
CotonLe coton est une fibre végétale qui entoure les graines des cotonniers "véritables"(Gossypium sp.), un arbuste de la famille des Malvacées. Cette fibre est généralement transformée en fil qui est tissé pour fabriquer des tissus. Le coton est la plus importante des fibres naturelles produites dans le monde. Depuis le XIXe siècle, il constitue, grâce aux progrès de l'industrialisation et de l'agronomie, la première fibre textile du monde (près de la moitié de la consommation mondiale de fibres textiles).
Fibres animales
Fibres cellulosiques
Fibres de bambous
Fibres de chanvre
Fibres de soja
Fibres polyesters
Fibres textiles synthétiques
Laine
Produits et matériaux recyclés
Vêtements de sportIndex. décimale : 677 Textiles Résumé : Sporttech is one of the fast-growing sectors of technical textiles and includes 3 categories, i.e. sportswear, sport goods and sport accessories. All 3 categories make a significant contribution for effective and performance sports activity. There is a variety of eco-friendly and sustainable fibers which are being used for sport textiles. Fibers such as organic cotton, wool, bamboo, hemp, recycled synthetic fibers, plant-based polyester (PET), regenerated cellu¬lose fibers, regenerated protein fibers, sea weeds, coir, jute etc. are being discussed in relation to its application in Sporttech. This paper discusses the application for eco-friendly textiles for sportswear. Note de contenu : - Organic cotton
- Wool
- Hemp fiber
- Bamboo fiber
- Soybean fiber
- Recycled synthetic fibers
- Plant-based polyester
- Regenerated cellulose fibers
- regenerated protein fiber
- Seaweed fibersEn ligne : https://drive.google.com/file/d/1aOUxI87-HzrC0cDpuDudjLlfiKSGtZHq/view?usp=drive [...] Format de la ressource électronique : Permalink : https://e-campus.itech.fr/pmb/opac_css/index.php?lvl=notice_display&id=38476
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Code-barres Cote Support Localisation Section Disponibilité 23749 - Périodique Bibliothèque principale Documentaires Disponible Eco-friendly and sustainable fibers for sporttech / Mayur Basuk in MAN-MADE FIBERS INTERNATIONAL, Vol. 73 - Year Book 2023 (2023)
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PermalinkEffect of spinneret shapes on the properties of polyester filament / Ranjit Turukmane in CHEMICAL FIBERS INTERNATIONAL, Vol. 71, N° 3 (09/2021)
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PermalinkFacile synthesis of a cardanol-based levelling agent as a biodegradable alternative to tristyrylphenol ethoxylates for the dyeing of polyester fabric / Kun Chen in COLORATION TECHNOLOGY, Vol. 138, N° 3 (06/2022)
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PermalinkGlycolysis, methanolysis or hydrolysis - which process is preferred in chemical polyester recycling ? / Ulrich Thiele in CHEMICAL FIBERS INTERNATIONAL, (10/2021)
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PermalinkPolyester chemical recycling - an update / Ulrich Thiele in CHEMICAL FIBERS INTERNATIONAL, (10/2021)
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PermalinkPreparation and properties of silver-loaded chitosan-based antibacterial yarn / Li Hongbin in CHEMICAL FIBERS INTERNATIONAL, Vol. 66, N° 2 (06/2016)
PermalinkPreparation and the light transmittance of TiO2 deposited fabrics / Yang Xu in JOURNAL OF COATINGS TECHNOLOGY AND RESEARCH, Vol. 6, N° 4 (12/2009)
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PermalinkProcessing methods of polyester fibers with deep-coloring / Xiaosong Liu in CHEMICAL FIBERS INTERNATIONAL, (10/2012)
PermalinkProperties of polyester/bamboo blended yarns and fabrics / Ramesh N. Narkhedkar in CHEMICAL FIBERS INTERNATIONAL, Vol. 72, N° 4 (11/2022)
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PermalinkRecent developments in the global polyester chain / Salmon Lee in CHEMICAL FIBERS INTERNATIONAL, Vol. 70, N° 4 (12/2020)
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PermalinkStructure and properties of opaque polyester fibers / Ni Wang in CHEMICAL FIBERS INTERNATIONAL, (10/2012)
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PermalinkStudy of the removal of a disperse dye stain from a polyester/elastane blend / Potjarnart Suwanruji in COLORATION TECHNOLOGY, Vol. 128, N° 2 (2012)
PermalinkStudy on the dyeing properties of hemicyanine dyes. II. Cationic dyeable polyester in COLORATION TECHNOLOGY, Vol. 128, N° 2 (2012)
PermalinkSuper microfilaments polyester / Rainer Straub in L'INDUSTRIE TEXTILE, N° 1324 (10/2000)
PermalinkSupercritical carbon dioxide (SC-CO2) dyeing of cellulose acetate : An opportunity for a "greener" circular textile economy / Peter J. Broadbent in COLORATION TECHNOLOGY, Vol. 139, N° 4 (08/2023)
PermalinkSupertex - Sustainable technical textile from recycled polyester / Isabel de Schrijver in CHEMICAL FIBERS INTERNATIONAL, Vol. 64, N° 1 (03/2014)
PermalinkPermalinkPermalinkSynthesis and application of novel glucose derived nonionic gemini surfactant / Zhiwei Xu in COLORATION TECHNOLOGY, Vol. 138, N° 5 (10/2022)
PermalinkSynthesis and characterisation of benzothiazole-based solid-state fluorescent azo dyes / Ganapati S. Shankarling in COLORATION TECHNOLOGY, Vol. 126, N° 6 (2010)
PermalinkSynthesis, characterisation, and applications of isoindigo/Pechmann dye heteroanalogue hybrid dyes on polyester fabric / Tarek Aysha in COLORATION TECHNOLOGY, Vol. 131, N° 4 (08/2015)
PermalinkSynthesis of core–shell-type styrene acrylic latexes with low NMA content and their application in pigment printing pastes / Mesut Eren in JOURNAL OF COATINGS TECHNOLOGY AND RESEARCH, Vol. 15, N° 1 (01/2018)
PermalinkSynthesis of methine dyes derived from indol-2-ones and their dyeability on polyester fibres / Zhen Qi in COLORATION TECHNOLOGY, Vol. 130, N° 1 (02/2014)
PermalinkSynthesis of pharmacological dyes and their application on synthetic fabrics / Mounir A. I. Salem in COLORATION TECHNOLOGY, Vol. 131, N° 4 (08/2015)
PermalinkSynthesis, spectral properties and dyeing on polyester of monoazo dyes from indol-2-one derivatives / Ru Jia in COLORATION TECHNOLOGY, Vol. 128, N° 4 (2012)
PermalinkTeinture des mélanges PES cellulosiques / Philippe Sourdioux in L'INDUSTRIE TEXTILE, N° 1322 (07-08/2000)
PermalinkTextile applications of photochromic dyes. Part 4 : application of commercial photochromic dyes as disperse dyes to polyester by exhaust dyeing / Mohanad Aldib in COLORATION TECHNOLOGY, Vol. 127, N° 5 (2011)
PermalinkTextile applications of photochromic dyes. Part 5 : application of commercial photochromic dyes to polyester fabric by a solvent-based dyeing method / Yong Deng in COLORATION TECHNOLOGY, Vol. 129, N° 2 (04/2013)
PermalinkThe influence of ink viscosity, water and fabric construction on the quality of ink-jet printed polyester / Chenyong Gao in COLORATION TECHNOLOGY, Vol. 136, N° 1 (02/2020)
PermalinkThe PVP/VI copolymer dye transfer inhibition agent during the washing of the polyester fabric / Francisco J. Carrión-Fité in TENSIDE, SURFACTANTS, DETERGENTS, Vol. 50, N° 1 (01-02/2013)
PermalinkThe quasi-yarn-dyed effect : triple dyeing of woven polyester/cationic dyeable polyester/viscose rayon blend fabrics by chemical treatments in the laboratory and on a pilot and an industrial scale / Ilhan Özen in COLORATION TECHNOLOGY, Vol. 128, N° 2 (2012)
PermalinkDu tissu lumineux au tissu dépolluant in INSTANTANES TECHNIQUES, N° 56 (12/09 - 01-02/10)
PermalinkToughness of polyester flocks in shear thickening gel / Yuhao Tan in CHEMICAL FIBERS INTERNATIONAL, Vol. 70, N° 4 (12/2020)
PermalinkTrois entreprises fabriquent du polyester recyclé / Monique Trancart in TEXTILES A USAGES TECHNIQUES (TUT), N° Hors série (11/2011)
PermalinkPermalinkViscoelastic mechanical model of asphalt concrete considering the influence of characteristic parameter of fiber content / Chunshui Huang in REVUE DES COMPOSITES ET DES MATERIAUX AVANCES, Vol. 31, N° 5 (10/2021)
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