Investigation of poly(L-lactic acid)/graphene oxide composites crystallization and nanopore foaming behaviors via supercritical carbon dioxide low temperature foaming

Li-Hong Geng; Xiang-Fang Peng; Xin Jing; Leng-Wan Li; An Huang; Bai-Ping Xu; Bin-Yi Chen; Hao-Yang Mi

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Investigation of poly(L-lactic acid)/graphene oxide composites crystallization and nanopore foaming behaviors via supercritical carbon dioxide low temperature foaming

机译：超临界二氧化碳低温发泡法研究聚（L-乳酸）/氧化石墨烯复合材料的结晶和纳米孔发泡行为

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Poly(lactic acid) (PLA)/graphene oxide (GO) nanocomposites were prepared by solution mixing. Differential scanning calorimetry results indicated that GO was an effective nucleating agent. The size of spherulites decreased, the density of spherulites increased with increasing GO and the crystallinity of PLA increased from 4.34 to 49.01%. For isothermal crystallization, the crystallization rates of PLA/GO nanocomposites were significantly higher than that of neat PLA, in which ?o.5 reduced from 9.0 to 2.8. Spindle-like nanopores (about 100-200 nm) that arranged like spherulites were prepared by low temperature foaming. It was found that the crystallization rate increase and spherulite morphology change were insignificant when the content of GO exceeded 0.5 wt%, because the excessive GO increased the number of nucleation sites while restricting the PLA crystal growth. Thus, the arrangement of nanopores did not mimick the spherulites because of imperfect crystal morphology.

机译：通过溶液混合制备聚乳酸（PLA）/氧化石墨烯（GO）纳米复合材料。差示扫描量热法结果表明GO是有效的成核剂。随着GO的增加，球晶尺寸减小，球晶密度增加，PLA的结晶度从4.34％增加到49.01％。对于等温结晶，PLA / GO纳米复合材料的结晶速率显着高于纯PLA的结晶速率，后者的φ0.5从9.0降低至2.8。通过低温发泡制备像球晶一样排列的纺锤状纳米孔（约100-200 nm）。发现当GO的含量超过0.5wt％时，结晶速率的增加和球晶形态的变化不明显，这是因为过量的GO增加了成核位点的数量，同时限制了PLA晶体的生长。因此，由于不完美的晶体形态，纳米孔的排列不会模仿球晶。

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来源
《Journal of Materials Research》 |2016年第3期|348-359|共12页
作者
Li-Hong Geng; Xiang-Fang Peng; Xin Jing; Leng-Wan Li; An Huang; Bai-Ping Xu; Bin-Yi Chen; Hao-Yang Mi;
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作者单位

Department of Industrial Equipment and Control Engineering, School of Mechanical & Automotive Engineering, South China University of Technology, Guangzhou 510640, People's Republic of China,National Engineer Research Center of Novel Equipment for Polymer Processing, The Key Laboratory of Polymer Processing Engineering of Ministry of Education, South China University of Technology, Guangzhou 510640, People's Republic of China;

National Engineer Research Center of Novel Equipment for Polymer Processing, The Key Laboratory of Polymer Processing Engineering of Ministry of Education, South China University of Technology, Guangzhou 510640, People's Republic of China;

Department of Industrial Equipment and Control Engineering, School of Mechanical & Automotive Engineering, South China University of Technology, Guangzhou 510640, People's Republic of China;

Technology Development Center for Polymer Processing Engineering of Guangdong Colleges and Universities, Guangdong Industry Technical College, Guangzhou 510640, People's Republic of China;

Technology Development Center for Polymer Processing Engineering of Guangdong Colleges and Universities, Guangdong Industry Technical College, Guangzhou 510640, People's Republic of China;

Technology Development Center for Polymer Processing Engineering of Guangdong Colleges and Universities, Guangdong Industry Technical College, Guangzhou 510640, People's Republic of China;

National Engineer Research Center of Novel Equipment for Polymer Processing, The Key Laboratory of Polymer Processing Engineering of Ministry of Education, South China University of Technology, Guangzhou 510640, People's Republic of China;

Department of Industrial Equipment and Control Engineering, School of Mechanical & Automotive Engineering, South China University of Technology, Guangzhou 510640, People's Republic of China;

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正文语种 eng
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入库时间 2022-08-17 13:13:53

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Investigation of poly(L-lactic acid)/graphene oxide composites crystallization and nanopore foaming behaviors via supercritical carbon dioxide low temperature foaming

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