S. Barman scite author profile

Aesthetic properties of fabrics have been considered as the most important fabric attribute for years. However, recently there has been a paradigm shift in the domain of textile material applications and consequently more emphasis is now being given on the mechanical and functional properties of fabrics rather than its aesthetic appeal. Moreover, in certain woven fabrics used for technical applications, strength is a decisive quality parameter. In this work, tensile strength of plain woven fabrics has been predicted by using two empirical modelling methods namely artificial neural network (ANN) and linear regression. Warp yarn strength, warp yarn elongation, ends per inch (EPI), picks per inch (PPI) and weft count (Ne) were used as input parameters. Both the models were able to predict the fabric strength with reasonably good precision although ANN model demonstrated higher prediction accuracy and generalization ability than the regression model. The warp yarn strength and EPI were found to be the two most significant factors influencing fabric strength in warp direction.

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Thermoplastic copolyether ester elastomer toughened polycarbonate blends

Sivaraman

Manoj

Barman

et al. 2004

Polymer Testing

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Thermoplastic copolyether ester elastomer toughened polycarbonate blends

et al. 2004

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Constrained-layer Dampers for Attenuation of Structural Vibration

Manoj¹,

Barman²,

Chandrasekhar³

et al. 2005

DSJ

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In a constrained-layer damping system, a thin layer of a viscoelastic material is applied over the vibrating substrate. and covered with a stiff constraininglayer of a metal or a fibre-reinforced plastic. Several viscoelastic materials based on elastomeric blends of copoly (acrylonitrilebutadiene) and polyvinyl chloride were developed. These materials were characterised for hardness, tensile properties, ozone resistance, and electrical and dynamic mechanical properties. Two polymer compositions were used to fabricate 1 mm sheets. The sheets were fixed on an aluminium substrate with a rigid epoxy glue. A fibre-reinforced plastic sheet of 300 p was fixed on the viscoelastic layer by a rigid epoxy glue. The experimental setup for the measurement of vibration response has been elaborated. The study was carried out with and without the constrained-layer damping system. The vibration attenuation achieved was to a minimum of 5-7 dB at 200-500 Hz and to a maximum of 9-16 dB at 3000 -4000 Hz for the selected constrainedlayer damping system.

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S. Barman

Nanocomposites based on epoxy resin and organoclay functionalized with a reactive modifier having structural similarity with the curing agent

Empirical modelling of tensile strength of woven fabrics

Thermoplastic copolyether ester elastomer toughened polycarbonate blends

Thermoplastic copolyether ester elastomer toughened polycarbonate blends

Constrained-layer Dampers for Attenuation of Structural Vibration

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