Thermal properties of poly(l-lactide)/olive stone flour composites

Perinovi? S.; Andrii? B.; Erceg M.

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Thermal properties of poly(l-lactide)/olive stone flour composites

机译：聚（l-丙交酯）/橄榄石粉复合材料的热性能

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Thermal properties of poly(l-lactide)/olive stone flour (PLLA/OSF) composites were investigated by differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA) using dynamic heating regime. PLLA was blended with various amount of OSF using Brabender plastograph and pressed in a hydraulic hot press. DSC analysis showed that the glass transition temperature and the melting temperature of PLLA in the composites remained the same, while the cold crystallization temperature decreased. The crystallinity of PLLA was changed, too. SEM analysis confirmed weak interactions between polymer matrix and the filler. According to TG analysis, PLLA decomposes in one step, PLLA/OSF composites in two and OSF in three degradation steps. As the amount of OSF increases, thermal stability of PLLA decreases. At conversion higher than 0.7 char formation is probably responsible for higher E_a values of nonisothermal degradation of PLLA composites compared to pure PLLA.

机译：聚（l-丙交酯）/橄榄石粉（PLLA / OSF）复合材料的热性能通过差示扫描量热法（DSC）和热重分析（TGA）使用动态加热方案进行了研究。使用Brabender塑性仪将PLLA与各种OSF混合，并在液压热压机中压制。 DSC分析表明，复合材料的玻璃化转变温度和PLLA的熔融温度保持不变，而冷结晶温度降低。 PLLA的结晶度也改变了。 SEM分析证实了聚合物基质与填料之间的弱相互作用。根据TG分析，PLLA在一个步骤中分解，PLLA / OSF复合物在两个步骤中分解，而OSF在三个降解步骤中。随着OSF量的增加，PLLA的热稳定性降低。与纯PLLA相比，转化率高于0.7时，炭形成可能是PLLA复合材料非等温降解的较高E_a值的原因。

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《Thermochimica Acta: An International Journal Concerned with the Broader Aspects of Thermochemistry and Its Applications to Chemical Problems》 |2010年第2期|共6页
作者
Perinovi? S.; Andrii? B.; Erceg M.;
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正文语种 eng
中图分类其他物理及物理化学分析法;
关键词
Activation energy (E_a); Differential scanning calorimetry (DSC); Poly(l-lactide) (PLLA)/olive stone flour (OSF) composites; Scanning electron microscopy (SEM); Thermogravimetric analysis (TGA);

机译：活化能（E_a）;差示扫描量热法（DSC）;聚（l-丙交酯）（PLLA）/橄榄石粉（OSF）复合材料;扫描电子显微镜（SEM）;热重分析（TGA）;

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Thermal properties of poly(l-lactide)/olive stone flour composites

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