Mechanical Behavior of Polysaccharide Based Biopolymer Synthesized from the Seed Kernel of Tamarindus Indica L

IF 1.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Advances in Materials Science Pub Date : 2023-03-01 DOI:10.2478/adms-2023-0004
S. Sultana, Shahnawaz Alom, S. Eti, F. Rony
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Abstract

Abstract Biopolymer carboxymethyl tamarind seed kernel polysaccharide (CMTSP) was synthesized by the reaction of tamarind kernel powder (TKP) of Tamarindus indica L. with monochloroacetic acid by an improved method. The synthesis was conducted in presence of sodium hydroxide at optimized conditions of time, temperature, concentrations of TKP, MA, sodium hydroxide. Tamarind seed polysaccharide (TSP) was also extracted from TKP by boiling distilled water. The chemical structure of TKP, TSP and CMTSP were analyzed by the ATRFTIR. When TKP, TSP, and CMTSP’s comparative physico-mechanical properties were examined and compared, CMTSP performed better due to increase in viscosity, water solubility and tensile properties.
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以柽柳种子核为原料合成多糖基生物聚合物的力学行为
摘要以罗望子仁粉(TKP)与一氯乙酸为原料,采用改进的方法合成了生物聚合物羧甲基罗望子仁多糖(CMTSP)。在氢氧化钠的存在下,在最佳的时间、温度、TKP、MA、氢氧化钠浓度条件下进行了合成。用沸水蒸馏水提取罗望子多糖(TSP)。利用ATRFTIR分析了TKP、TSP和CMTSP的化学结构。当对TKP、TSP和CMTSP的物理力学性能进行比较时,CMTSP表现更好,因为它增加了粘度、水溶性和拉伸性能。
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Advances in Materials Science
Advances in Materials Science MATERIALS SCIENCE, MULTIDISCIPLINARY-
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