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教师拼音名称:shixinyan

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所在单位:橡塑材料与工程省部共建教育部重点实验室

职务:橡塑材料与工程省部共建教育部重点实验室常务副主任

学历:博士研究生

办公地点:青岛市舞阳路51-1号青岛科技大学橡塑楼406房间

性别:女

联系方式:0532-84022468

学位:博士

职称:教授

毕业院校:青岛科技大学

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3D printing nanocomposites with controllable "strength-toughness" transition: Modification of SiO2 and construction of Stereocomplex Crystallites

关键字:LOW-DENSITY POLYETHYLENE; MECHANICAL-PROPERTIES; EXTRUDATE SWELL; COMPOSITES; POLYMER; NANOPARTICLES; RHEOLOGY

摘要:Modified nanoparticles are increasingly being used in the manufacture of multi-purpose polymers of highperformance. Most modifications only focus on the improvement of strength or toughness of the composite materials. These adjustments are however limited by the traditional molding method. In this paper, low molecular weight poly (D-lactic acid) (PDLA) was coated on the surface of silica dioxide (SiO2) using the green chemical method. This realized nano dispersion of SiO2 in the poly (L-lactic acid)/poly (butylene adipate terephthalate) biodegradable blend (PLLA/PBAT) and uniform distribution of Stereocomplex Crystallites (SC) in the matrix. The mechanical properties of composites were dependent on their crystallization behavior, which was influenced by the temperature of 3D printing nozzle to achieve the "strength-toughness" transition. The PDLA modified SiO2 (SiO2-PDLA) evenly nano dispersed in the composite, and it did not agglomerate even at 5 wt %. The heat resistance of the composites improved with an increase in SiO2-PDLA, attributed to the SC. At a temperature of the 3D printing nozzle of 180 degrees C, the tensile strength of composites was greatly enhanced by the distribution of SC and SiO2-PDLA in the composite material. At a nozzle temperature of 210 degrees C, the SC melted. The PDLA grafted on SiO2 can act as a low molecular weight plasticizer to improve the toughness of composites.

卷号:218

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