Ekonol/G/MoS_2/PEEK复合材料的力学性能

用模压方法制备了Ekonol/G/MoS2/PEEK复合材料,并对其力学性能(含拉伸强度、弯曲强度、冲击强度和压缩强度)进行了研究。结果表明:Ekonol的加入,使Ekonol/G/MoS2/PEEK复合材料的压缩强度提高,拉伸强度、弯曲强度和冲击强度有所降低,但并不妨碍其作为结构零件使用;当Ekonol含量为25%左右时,复合材料具有较为理想的综合力学性能。

Ekonol/G/MoS_2/PEEK复合材料的磨损机理研究

用模压方法制备了Ekonol/G/MoS2 /PEEK复合材料 ,通过摩擦磨损实验方法对材料的耐磨性能进行了研究 ,并用SEM对磨损表面进行了观察和分析 ,在此基础上探讨了复合材料的磨损机理。结果表明 :与PEEK相比 ,复合材料具有优良的耐磨性能 ;随着Ekonol含量的增加 。

Ekonol/G/MoS_2/PEEK复合材料的制备和正交试验研究

用正交试验设计方法和模压方法制备了Ekonol/G/MoS2/PEEK复合材料,通过方差和极差分析方法对材料的耐磨性能进行了研究,并用扫描电镜对磨损表面形貌进行了观察和分析。结果表明,用模压法制备此复合材料是可行的,复合材料具有优良的耐磨性能,其最优制备方案为A5B3C3D3E3;正交试验设计方法、方差和极差分析方法是行之有效的复合材料研究方法。

MoS_(2)复合g-C_(3)N_(4)半导体材料的制备与其海岸带水环境净化的研究

本文针对近海岸带的水体环境抗生素类污染物,开发改性了传统半导体光催化剂,对其存在的电子-空穴复合率过高、可见光吸收差、处理效率低等问题,制备并掺杂改性了g-C_(3)N_(4)半导体材料,通过复合MoS_(2)。研究了其对四环素的光催化降解性能及其最佳配比最适反应环境等问题,并对其进行晶体学及光谱能谱学表征。

锂离子在石墨、MoS_(2)及其复合材料中扩散过程的分子模拟及量子力学研究

锂离子在电极材料中的传递性能对电池的充放电速率起着至关重要的作用。采用非平衡态分子动力学(NEMD)方法,模拟了充电过程中锂离子在石墨、 MoS_2及其复合材料(G/MoS_(2))中的迁移过程,考察了锂离子的非平衡态扩散时间、平衡态扩散系数(D)和吸附能,探究了石墨、MoS_(2)层间距及边缘结构对锂离子扩散的影响。计算结果表明:锂离子的传递扩散系数与其自扩散系数间有5~7个数量级的差别;锂离子在石墨、MoS_(2)中迁移的最佳层间距分别为0.42、0.75 nm;石墨边缘结构对锂离子迁移的促进效果依次为:C-OH>C-F>C=O>C-H。G/MoS_2复合材料的分析结果表明:材料复合的均匀度越高,越有利于锂离子的扩散。

MoS_(2) reinforced PEEK composite for improved aqueous boundary lubrication

Polyether-etherketone(PEEK)is a corrosion-resistant material that has been widely used in aqueous lubrication.However,its anti-wear performance must be improved for its application in the industry.In this study,to improve the anti-wear performance of PEEK for aqueous boundary lubrication,PEEK/MoS_(2)composites were prepared by ball-milling and spark plasma sintering processes.A competitive MoS_(2)mechanism between the low shear strength property and the role of promoting wear debris generation influences the anti-wear performance of PEEK/MoS_(2)composites.Experiments demonstrated that the coefficients of friction(COF)and wear rate of PEEK composite with 0.25 wt%MoS_(2)were significantly reduced 68%and 94%,respectively.Furthermore,this was the first time that a PEEK composite could achieve a COF of less than 0.05 in aqueous boundary lubrication.Its anti-wear performance was verified to be better than that of PEEK/carbon fiber(CF)and Thordon composites.The PEEK/MoS_(2)composite may be a potential material for underwater equipment because of its outstanding anti-wear performance in aqueous boundary lubrication.