Please use this identifier to cite or link to this item: http://nopr.niscair.res.in/handle/123456789/40680
Title: Effects of different production processing stages on mechanical and surface characteristics of polylactic acid and PET fibre fabrics
Authors: Hasani, Hossein
Avinc, Ozan
Khoddami, Akbar
Keywords: Low-stress mechanical properties;Polylactic acid fabric;Polyester fabric;Polylactic acid fabric;Surface characteristics
Issue Date: Mar-2017
Publisher: NISCAIR-CSIR, India
Abstract: This paper reports study on the polylactic acid (PLA) and polyester (PET) knitted fabrics mechanical and surface characteristics at low-stress and the influence of typical commercially applied different production processing stages on the properties. The KES-FB is used for the investigation of low-stress bending, compression, tensile, shear and surface characteristics. The results show remarkable changes after each processing stage, such as scouring, drying, dyeing, heat setting and softening, in mechanical and surface characteristics of PLA and PET fibre knitted fabrics. PLA knitted fabrics represent higher values in bending, shear and surface properties after different processing stages as compared to PET knitted fabrics. The values of bending rigidity (B), bending hysteresis (2HB), shear stiffness (G), and shear hysteresis (2HG and 2HG3) have been significantly decreased after the scouring treatment. There is a considerable decrease in B, 2HB, G, 2HG and 2HG3 values and an improvement in tensile elongation (EMT) after dyeing of PET and PLA fabrics. A slight reduction in shear and bending properties of polylactic acid fibre fabricsshows that softening treatment decreases the inter fibre and inter yarn friction. LT (linearity of load-extension curve), RT (recovery from tensile deformation), LC (linearity of compression curve) and RC (recovery from compression deformation) properties are not found quite sensitive for different production processing stages in case of both the fabrics.
Page(s): 31-37
URI: http://nopr.niscair.res.in/handle/123456789/40680
ISSN: 0975-1025 (Online); 0971-0426 (Print)
Appears in Collections:IJFTR Vol.42(1) [March 2017]

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