摘要
研究了利用马来酸酐(MAH)熔融接枝聚乳酸(PLA),制备耐热性、韧性、吸水性较好,熔体黏度较高的PLA共聚物。通过IR、棱磁共振、接枝率、MFR、力学性能、DSC、TGA较全面地表征了反应工艺对接枝物特性的影响。结果表明:在恒温175℃的密炼机中,以过氯化苯甲酰(BPO)为引发剂,MAH单体含量为4phr,反应时间6-8min。成功地制备出接枝率为0.98%的PLA-g—MAH共聚物;与PLA相比,PLA-g-MAH的起始分解温度和完全分解温度均提高50℃以上,断裂伸长率和熔体黏度有所提高。结晶度随着接枝单体MAH含量的增加呈现先降低后提高的趋势。
Maleated poly(lactic acid)(PLA-g-MAH) with high heat resistance, toughness, absorbent and melt viscosity was prepared by melt-compounding method. The effects of reaction process on the graft characteristic were investigated by IR, NMR, grafting ratio, MFR, mechanical testing, DSC and TGAo The result show that: PLA-g-MAH which grafting ratio is 0.98% is obtained under the temperature of 175~C, with blending benzoyl peroxide (BPO) as initiator with 4 phr MAH in the internal mixer for 6-8 min. Compared with pure PLA, both the initial decomposition temperature and the completely decomposition temperature of PLA-g-MAH rise more than 50℃; and then the elongation at break and melt viscosity increase, the degree of crystallinity reduces firstly and then increases with the increasing of MAH content.
出处
《塑料科技》
CAS
北大核心
2014年第2期53-59,共7页
Plastics Science and Technology
基金
2012年广东省重大科技项目资助(2012A0801050021)
关键词
聚乳酸
接枝
耐热性
力学性能
降解性能
制备
表征
Polylactide
Grafting
Heat resistance
Mechanical properties
Degradation performance
Preparation
Characterization
