TY - JOUR ID - 83100 TI - Applying Fuzzy Logic Model for Bending Rigidity Evaluation of Woven Fabrics JO - Journal of Textiles and Polymers JA - JTP LA - en SN - 2322-5203 AU - Dehghan-Manshadi, Najmeh AU - Hadizadeh, Mohsen AD - Textile Department, Faculty of Engineering, Yazd University, Yazd, Iran. Y1 - 2019 PY - 2019 VL - 7 IS - 1 SP - 61 EP - 68 KW - Fuzzy logic KW - bending rigidity KW - woven fabric DO - N2 -  Fabric bending rigidity evaluation plays a very important role in determining end-use quality of products. This property has a non-linear behavior. Many techniques, such as mathematical, multiple regression, artificial neural network model, etc., have been used to predict mechanical properties of fabrics.  This paper presents a method to model the bending rigidity of plain-woven fabrics using fuzzy logic. The input variables are yarn count, yarn diameter, yarn spacing, yarn bending rigidity and yarn length. The output variable is fabric bending rigidity. These results revealed the efficiency of fuzzy model to predict bending rigidity based on the mentioned parameters. Then the prediction accuracy of fuzzy logic model in comparison with three modeling methodologies based on mathematical, empirical and artificial neural network was evaluated. The comparison of the prediction performance showed that the fuzzy model is more powerful than the other models. UR - http://www.itast.ir/article_83100.html L1 - http://www.itast.ir/article_83100_414ffb356f16291875b48d35c3da0b44.pdf ER -