ICAR Research Data Repository for Knowledge Management
<p><strong><span style="font-family: times new roman,times; font-size: x-small;">Recipe </span>optimisation<span style="font-family: times new roman,times; font-size: x-small;"> for sugarcane bagasse </span>fibre<span style="font-family: times new roman,times; font-size: x-small;"> reinforced soy protein biocomposite</span></strong></p>
Online Publishing @ NISCAIR
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| Authentication Code |
dc |
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| Title Statement |
<p><strong><span style="font-family: times new roman,times; font-size: x-small;">Recipe </span>optimisation<span style="font-family: times new roman,times; font-size: x-small;"> for sugarcane bagasse </span>fibre<span style="font-family: times new roman,times; font-size: x-small;"> reinforced soy protein biocomposite</span></strong></p> |
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| Added Entry - Uncontrolled Name |
Singh, Vikas Kumar; Indian Institute of Technology Delhi Mukhopadhyay, Samrat ; Indian Institute of Technology Delhi Das, Dipayan |
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| Uncontrolled Index Term |
Biocomposites; Green composites; Soil burial; Soy protein; Sugarcane bagasse fibre |
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| Summary, etc. |
<p class="Abstract" style="text-align: justify;"><span style="font-family: times new roman,times; font-size: small;">A series of biodegradable composites has been prepared using sugarcane bagasse </span>fibres<span style="font-family: times new roman,times; font-size: small;"> as reinforcement and soy protein isolate (SPI) as </span>matrix<span style="font-family: times new roman,times; font-size: small;">. Sugarcane bagasse has been pretreated with 2% NaOH solution for improving its reinforcement. Recipe for matrix includes soy protein isolate as </span>prime<span style="font-family: times new roman,times; font-size: small;"> ingredient, glyoxal as crosslinking agent and glycerol as plasticizer. The composites are </span>characterised<span style="font-family: times new roman,times; font-size: small;"> for tensile properties. Three-factor and three-level Box-Behnken design </span>is<span style="font-family: times new roman,times; font-size: small;"> used to optimize the mass fraction of </span>fibres<span style="font-family: times new roman,times; font-size: small;">, </span>percentage<span style="font-family: times new roman,times; font-size: small;"> of crosslinking and </span>plasticizing<span style="font-family: times new roman,times; font-size: small;"> agent. The model predicts that the best possible results would be achieved with the recipe having 20% </span>fibres<span style="font-family: times new roman,times; font-size: small;"> with matrix recipe of 11% glyoxal, 17.7% glycerol and 51.3% SPI by weight. The predicted and observed </span>tensile<span style="font-family: times new roman,times; font-size: small;"> strength of </span>composite<span style="font-family: times new roman,times; font-size: small;"> is found to be comparable. The glycerol content is found to play an important role in </span>improvement<span style="font-family: times new roman,times; font-size: small;"> of tensile property of composite.</span></p> |
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| Publication, Distribution, Etc. |
Indian Journal of Fibre & Textile Research (IJFTR) 2017-06-16 14:14:36 |
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| Electronic Location and Access |
application/pdf http://op.niscair.res.in/index.php/IJFTR/article/view/8278 |
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| Data Source Entry |
Indian Journal of Fibre & Textile Research (IJFTR); ##issue.vol## 42, ##issue.no## 2 (2017): Indian Journal of Fibre & Textile Research |
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| Language Note |
en |
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| Nonspecific Relationship Entry |
http://op.niscair.res.in/index.php/IJFTR/article/download/8278/25082 http://op.niscair.res.in/index.php/IJFTR/article/download/8278/25083 |
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