Concept Evaluation of Predicting UPF Values for Artificial Cellulose Fabrics by Varying the Optical Brightener Chemical Structure Applied
Research and development
Authors:
- Alvarez Joanna
Institute of Leather Industry in Lodz, Cracow Branch, Kraków, Poland - Lipp-Symonowicz Barbara
Department of Material and Commodity Sciencs and Textile Metrology, Faculty of Material Technologies and Textile Design, Lodz University of Technology, Łódź, Poland
Nr DOI: 10.5604/12303666.1228178
Full text | references | Abstract: The publication presents investigation results and statistical analysis showing that by varying the chemical structure of optical brighteners from the derivative group of stilbene used for fabrics of artificial cellulose fibre modification, resulting in a different manufacturing process, it is possible to predict the level of the UPF value of the index of such modified fabric. In addition, statistically it was confirmed by results from early research that both the fibre finish (in this case, roughening the pigment TiO2 ) used for fabric manufacture as well as the FBA concentration used for fabric modification influence their UPF index value. Fabric UV -barrier studies also showed that despite a partial decrease in UPF values for such finished fabrics, the dependence of such an index on subtle differences in the chemical structure of the FBAs is maintained. Primarily the possibility and range of improving textile barriers against UV radiation through the use of the UV-absorption abilities of optical brighteners with subtle differences in their chemical structure was recognised, creating a premise to elaborate a mathematical control concept to steer a textile UV-barrier. |
Tags:
artificial cellulose fibers, fabrics, fluorescent brightening agents FBAs, ultraviolet protection factor UPF, spectrophotometric analysis, one-way ANOVA statistical analysis.
Citation:
Alvarez J, Lipp-Symonowicz B. Concept Evaluation of Predicting UPF Values for Artificial Cellulose Fabrics by Varying the Optical Brightener Chemical Structure Applied. FIBRES & TEXTILES in Eastern Europe 2017; 25, 2(122): 100-105. DOI: 10.5604/12303666.1228178
Published in issue no 2 (122) / 2017, pages 100–105.