Cellulose/inorganic-composite fibers for producing textile fabrics of high X-ray absorption properties

Common textile materials as cotton or polyester do not possess reliable X-ray absorption properties. This is due to their morphology and chemical composition in particular. Common fibers are built up from organic polymers containing mainly the elements carbon, hydrogen, oxygen and nitrogen. These “l...

Full description

Saved in:
Bibliographic Details
Published inMaterials chemistry and physics Vol. 167; pp. 125 - 135
Main Authors Günther, Karoline, Giebing, Christina, Askani, Antonia, Leisegang, Tilmann, Krieg, Marcus, Kyosev, Yordan, Weide, Thomas, Mahltig, Boris
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2015
Subjects
Online AccessGet full text

Cover

Loading…
More Information
Summary:Common textile materials as cotton or polyester do not possess reliable X-ray absorption properties. This is due to their morphology and chemical composition in particular. Common fibers are built up from organic polymers containing mainly the elements carbon, hydrogen, oxygen and nitrogen. These “light” elements only have low X-ray absorption coefficients. In contrast, inorganic materials composed of “heavy” elements with high atomic numbers, e.g. barium or bismuth, exhibit X-ray absorption coefficients higher by up to two orders of magnitude. To obtain a flexible yarn with high X-ray absorption properties both these materials, the organic polymer and the inorganic X-ray absorber, are combined to an inorganic/organic composite fiber material. Hence, as the organic component cellulose from modified Lyocell-process is used as carrier fiber and blended with inorganic absorber particles of low toxicity and high absorption coefficients, as bariumsulphate, bariumtitanate or bismuthoxide. A content of inorganic absorber particles equally distributed in the whole fiber of up to 20% is achieved. The composite fibers are produced as staple or filament fibers and processed to multifilament or staple fiber yarns. The staple fiber yarns are rotor-spinned to increase the comfort of the subsequent textile material. Several woven fabrics, considering multilayer structure and different warp/weft density, are developed. The energy dependent X-ray shielding properties are determined in dependence on the different yarn compositions, yarn types and structural parameters of the woven fabrics. As a result, a production process of textile materials with comfortable and dedicated X-ray absorption properties is established. It offers a promising opportunity for manufacturing of specialized textiles, working clothes or uniforms applicable for medicine, air craft and security personal, mining as well as for innovative composite materials. •Preparation of cellulosic fibers with high content of inorganic X-ray absorbers.•Realization of textile fabrics for X-ray protective applications.•Combination of textile properties and X-ray protection in one material.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2015.10.019