Nouveau manuel complet du filateur ou Description des méthodes anciennes et nouvelles employées pour la conversion en fils des cinq matières organiques, filamenteuses et textiles : savoir : le coton, le lin, le chanvre, la laine et la soie /

Mode of access: Internet.

Nouveau manuel du cordier : contenant l'histoire et la culture de toutes les plantes textiles, les diverses méthodes de rouissage et d'extraction de la filasse, la fabrication de toutes sortes de cordes, etc, etc /

Mode of access: Internet.

The selection, care, and laundering of institutional textiles

Mode of access: Internet.

Flameproofing of textiles,

At head of title: U. S. Dept. of commerce ... National bureau of standards ...

Textiles & testing course of study : refresher course in textiles and testing techniques /

Includes bibliographical references (p. 85) and index.

Salaires et durée du travail dans les industries textiles au mois d'octobre 1901.

Mode of access: Internet.

Textiles and clothing, by Kate Heintz Watson.

Test question after each part.

History of American textiles : with kindred and auxiliary industries (illustrated) /

"A popular and accurate historical account of the growth and development of the making of American fabrics accompanied by sketches and illustrations of the men and establishments that have made one of the world's greatest industries."

Handbook of asbestos textiles.

Mode of access: Internet.

Application of transglutaminases in the modification of wool textiles

The use of the protein-crosslinking enzymes transglutaminases (EC 2.3.2.13), as biocatalysts in the processing of wool textiles offers a variety of exciting and realistic possibilities, which include reducing the propensity of wool fabric to shrink and maintaining or increasing fabric strength. Guinea pig liver (GPL) transglutaminase or the microbial transglutaminase isolated from Streptoverticilium mobaraense, when applied to wool either alone or following a protease treatment, resulted in an increase in wool yarn and fabric strength (up to a 25% increase compared to a control). This indicates that transglutaminases can remediate the negative effects of proteolytic treatments in terms of loss in fibre strength. Incubation of samples pretreated with different oxidative and reducing agents with both sources of transglutaminases led to significant increases in tensile strength for all samples tested, suggesting that yarn strength lost following chemical treatments can also be recovered. The two different transglutaminases (TGases) could also impart a significant reduction in fabric shrinkage. The incorporation of primary amine transglutaminase substrates into wool fibres, with a view to altering wool functionality, was demonstrated using the incorporation of the fluorescent primary amine fluorescein cadaverine (FC). Incubation of wool with this fluorescent amine and transglutaminase led to high levels of incorporation into the fibres. The treatment of wool textiles with transglutaminases indicates that a number of novel and radically different finishes for wool textiles can be developed.

Líneas de investigación experimentales del grupo de dinámica no lineal y fibras ópticas del Instituto de Óptica "Daza de Valdes del CSIC"

Se presenta y describen las líneas de trabajo experimentales que se vienen cultivando en el Grupo de investigación en Dinámica no Lineal y Fibras ópticas, recientemente creado en el Instituto de Óptica del CSIC. We present the experimental lines developed in last years in the Nonlinear Dynamics and Fiber Optics Group (NDFO) of the Optics Institute "Daza de Valdés" (IO-CSIC). © Sociedad Española de Óptica.

Avaliação das propriedades das fibras de algodões coloridos naturalmente e ecologicamente corretas cultivados nos assentamentos do município de Guamaré/RN

In this work evaluate the technical characteristics of the fibers grown in settlements Guamaré, colored cotton seeds were donated existing in the Germplasm Bank of Embrapa Cotton. We sought through the breeding program, raising the resistance, fineness, length and uniformity of cotton fibers, as well as stabilize the staining of fibers in the BRS Topaz, BRS Brown and BRS Green shades and raise their productivity in the field. First, the individual selections to test progeny seeds, and thereafter the hybridization method followed by family selection to obtain variations in the color tones were performed. The BRS Topaz, BRS Brown and BRS Green varieties were produced, analyzed and compared with existing cottons in the region which is the White cotton. The properties amount of impurities and neps, length, length uniformity, short fiber content, fineness and tensile strength of the fibers were sized in Classifiber, NATI, Pressley and Micronaire devices. 10 trials each with 10 tests for all four fiber types were carried out. The White and Topaz fibers showed greater length (32-34mm) and greater resistance (7.94 lb/mg and 7.97 lb/mg respectively) and showed finesse with lower micronaire index 3,71μg/inch and 3, 73μg/inch and a low rate of short fibers. The results were very promising for the use of genetically improved cotton in the manufacturing of fabric and yarn in the textile industry. The fibers were brown colored cotton used in the manufacture of a composite fiber with thermoplastic resin