Development of a novel test method for the measurement of fuzz in nonwovens

[1]  X. Y. Wang,et al.  Abrasion resistance of thermally bonded 3D nonwoven fabrics , 2007 .

[2]  H. Dabiryan,et al.  Investigation of effect of fibres modulus on pilling of acrylic fabrics , 2009 .

[3]  W. D. Cooke,et al.  10—A SIMULATION MODEL OF THE PILLING PROCESS , 1981 .

[4]  R. H. Brand,et al.  A Mathematical Model of Pilling Mechanisms1 , 1967 .

[5]  Gajanan S. Bhat,et al.  Thermal bonding of polypropylene nonwovens: Effect of bonding variables on the structure and properties of the fabrics , 2004 .

[7]  Ju Dong,et al.  Accuracy of electrospun fiber diameters: The importance of sampling and person-to-person variation , 2017 .

[8]  Lenka Techniková,et al.  New objective system of pilling evaluation for various types of fabrics , 2017 .

[9]  Lei Ming,et al.  Objective evaluation of fabric pilling based on data-driven visual attention model , 2018 .

[10]  Mohamed Eldessouki,et al.  Adaptive neuro-fuzzy system for quantitative evaluation of woven fabrics' pilling resistance , 2015, Expert Syst. Appl..

[11]  Daniel Gintis,et al.  The Mechanism of Pilling , 1959 .

[12]  Weilin Xu,et al.  Evaluating fabric fuzziness using laser range sensing , 2008 .

[13]  Masoud Latifi,et al.  Characterizing Fabric Pilling Due to Fabric-to-Fabric Abrasion , 2001 .

[14]  R. Patel,et al.  Advances in polyolefin-based spunbond and binder fibres , 2017 .

[15]  Zhuang Fengqing,et al.  Patients’ Responsibilities in Medical Ethics , 2016 .

[16]  Shengqi Guan,et al.  Objective evaluation of fabric pilling based on bottom-up visual attention model , 2017 .

[17]  Chang H. Hsi,et al.  Characterizing Fabric Pilling by Using Image-analysis Techniques. Part I: Pill Detection and Description , 1998 .