portant; overflow-wrap: break-word !important;”>portant; overflow-wrap: break-word !important;”>具有较低的吸水性、防蛀耐腐、便于清洗、无甲醛释放以及不易变形开裂等优点portant; overflow-wrap: break-word !important;”>portant; overflow-wrap: break-word !important;”>还存在强重比低、热稳定性差、容易老化等不足,如何克服或改善 portant; overflow-wrap: break-word !important; font-family: 宋体;”>塑木 portant; overflow-wrap: break-word !important;”>塑木portant; overflow-wrap: break-word !important;”>
portant; overflow-wrap: break-word !important;”>
portant; overflow-wrap: break-word !important; font-family: 宋体; font-size: 14px;”>portant; overflow-wrap: break-word !important; font-family: Calibri; font-size: 14px;”>4~5 portant; overflow-wrap: break-word !important;”>倍。用纳米材料增强植物纤维基复合材料,可提高其阻燃、抗老化和力学等性能。近年来国内外进行利用纳米无机化合物、纳米有机化合物等改善 portant; overflow-wrap: break-word !important; font-family: 宋体;”>塑木 portant; overflow-wrap: break-word !important;”>物理力学性能和阻燃、耐老化等功能性方面的研究进展。传统 portant; overflow-wrap: break-word !important; font-family: 宋体;”>塑木 portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0);”>portant; overflow-wrap: break-word !important; font-family: 宋体; font-size: 14px;”>portant; overflow-wrap: break-word !important; font-family: Calibri; font-size: 14px;”>portant; overflow-wrap: break-word !important; font-family: 宋体; font-size: 14px;”>portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0); font-family: Calibri; font-size: 14px;”>portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0); font-size: 14px; font-family: 宋体;”>中的添加量都有限,当加入量过多时容易发生团聚进而丧失其优良的纳米特性,且
portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0); font-family: Calibri; font-size: 14px;”>portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0); font-size: 14px; font-family: 宋体;”>中的增强效果。为提高纳米材料的添加量,可从无机纳米颗粒功能
portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0);”>portant; overflow-wrap: break-word !important; font-family: 宋体; font-size: 14px;”>portant; overflow-wrap: break-word !important; font-family: Calibri; font-size: 14px;”>portant; overflow-wrap: break-word !important; font-size: 14px; font-family: 宋体;”>的力学、阻燃和抗紫外老化等性能,但纳米
portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0); font-family: Calibri; font-size: 14px;”>portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0); font-size: 14px; font-family: 宋体;”>相关方面的研究机理目前尚不清楚,需要进一步优化调控。
portant; overflow-wrap: break-word !important; font-size: 14px; font-family: 宋体;”>
portant; overflow-wrap: break-word !important; font-family: Calibri; font-size: 14px;”>3portant; overflow-wrap: break-word !important;”>)利用纳米材料增强 portant; overflow-wrap: break-word !important; font-family: 宋体;”>塑木 portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0); font-family: 宋体; font-size: 14px;”>用更为简便的合成方法来完善生产工艺流程,从而进一步降低纳米材料增强
portant; overflow-wrap: break-word !important; font-family: 宋体;”>塑木
portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0); font-family: Calibri; font-size: 14px;”>portant; overflow-wrap: break-word !important; color: rgb(0, 0, 0); font-size: 14px; font-family: 宋体;”>的工业化进程。
portant; overflow-wrap: break-word !important; font-size: 14px; font-family: 宋体;”>
portant; overflow-wrap: break-word !important; font-family: Calibri; font-size: 14px;”>4portant; overflow-wrap: break-word !important;”>)有机纳米增强 portant; overflow-wrap: break-word !important; font-family: 宋体;”>塑木 portant; overflow-wrap: break-word !important;”>的研究有待深入。需进一步揭示有机纳米添料性能和结构之间的关联,通过内在机理的解析为高性能、多功能型有机纳米材料增强 portant; overflow-wrap: break-word !important; font-family: 宋体;”>塑木 portant; overflow-wrap: break-word !important;”>
分享到:
