Flexural and Impact Properties of Biopolymer Derived from Sugar Palm Tree

机译：生物聚合物的弯曲和影响糖棕榈树衍生的弯曲和影响性质

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The effect of glycerol concentration (15 w/w%, 20 w/w%, 30 w/w% and 40 w/w%) to the flexural and impact properties of plasticized sugar palm starch (SPS) was investigated in this present paper. Prior to the testing, the sugar palm starch extracted from the interior part of sugar palm stem was mixed with common glycerol (was used as a plasticizer) to form a novel biopolymer. The flexural and impact test were carried out according to ASTM D790 and ASTM 256 respectively. From this investigation, it is found that the 30% glycerol concentrated SPS biopolymer showed the highest flexural strength and flexural modulus with the value of 0.13 MPa and 87.54 MPa respectively. For the impact analysis, it is also found that same biopolymer showed the highest impact strength which is 6.13 kJ/m~2.

机译：在本文研究了甘油浓度（15w / w％，20w / w％，30w / w％，30w / w％，30 w / w％和40 w / w％）的塑化糖棕榈淀粉（sps）的影响。在测试之前，从糖棕榈茎的内部部分提取的糖棕榈淀粉与常见的甘油（用作增塑剂）混合以形成新的生物聚合物。弯曲和冲击试验分别根据ASTM D790和ASTM 256进行。从该研究开始，发现30％甘油浓缩的SPS生物聚合物显示出最高的弯曲强度和弯曲模量，分别值为0.13MPa和87.54MPa。对于影响分析，还发现相同的生物聚合物显示出最高的冲击强度，为6.13 kJ / m〜2。

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《International Conference on Key Engineering Materials》|2013年||共4页
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J. Sahari; S. M. Sapuan; E. S. Zainudin; M. A. Maleque;
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中图分类 TB3-53;
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Biopolymer; Sugar palm starch; Glycerol; Flexural; Impact;

机译：生物聚合物;糖棕榈淀粉;甘油;弯曲;冲击;

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Flexural and Impact Properties of Biopolymer Derived from Sugar Palm Tree

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