吸附共沉淀法制备聚醚醚酮/多壁碳纳米管复合材料与性能研究

通过吸附共沉淀法均匀混合聚醚醚酮(PEEK)粉末和经过表面改性的多壁碳纳米管(MWCNT),再经注塑加工成功地制得PEEK/MWCNT复合材料(PM)。SEM观察结果显示,该复合法使得MWCNT在PEEK中均匀分散且与PEEK有较好的结合力。力学测试结果表明,MWCNT含量为6%的PM其弯曲强度提高20%左右,拉伸强度提高10%。MWCNT的加入使得复合材料的结晶温度和熔融温度均有一定提高。     

具有隔离结构的聚丙烯/碳纳米管复合材料的制备及电磁屏蔽性能

通过共挤出包覆-热压法制备了具有隔离结构的聚丙烯(PP)/碳纳米管(CNTs)电磁屏蔽复合材料。 其中,CNTs随机分布于PP基体中形成导电相,该导电复合物作为包覆层包敷在纯PP颗粒表面,形成包覆复合粒子,经热压后形成隔离导电网络。 结果表明,所制备的隔离结构复合材料呈现良好的导电性能,可获得较低的导电逾渗值0.28%(体积分数);在CNTs质量分数为5.6%时,该复合材料电磁屏蔽性能达到25.6 dB,同时具有良好的力学性能。 本文结果表明,共挤出包覆-热压法制备隔离结构导电复合材料方法简单可控、绿色环保,对开发高性能电磁屏蔽复合材料具有重要指导意义。     

多壁碳纳米管/聚醚胺复合物的制备

利用亲核加成逐步聚合法成功地制备了芘标记的聚醚胺(pePEA),并将其用于修饰多壁碳纳米管;采用透射电镜分析了pePEA修饰多壁碳纳米管的微观结构,并利用热重分析测定了聚醚胺的负载量.结果表明:聚醚胺对多壁碳纳米管具有较好的包覆作用,包覆层厚度约为1nm,复合物中聚醚胺的质量分数为20.4%.与此同时,多壁碳纳米管/聚醚胺复合物可在水中稳定地分散,分散液放置3周不分层,无聚集现象发生,稳定性较好.     

纳米硒/多壁碳纳米管复合材料的制备及其电化学性能

经混酸纯化处理的多壁碳纳米管(MWCNTs)负载纳米硒(Nano-Se0)制备纳米硒/多壁碳纳米管复合材料(Nano-Se0/MWCNTs,简称1),其结构经IR,TEM和SEM表征.以Fe(CN)4-/3-6 为探针离子,采用循环伏安法和电化学阻抗法考察了1的电化学性能.     

NiCF/ABS复合材料的制备及电磁屏蔽效能研究

探讨了碳纤维(CF)表面镍金属的化学镀工艺,制备了镀镍碳纤维(NiCF),采用密炼工艺制备了ABS基体复合材料,研究了CF和NiCF含量对复合材料的导电性能及电磁屏蔽效能的影响。结果表明:采用化学镀的方法在碳纤维表面镀覆了金属镍,所形成的镀层均匀致密;镀覆时间为5min时,镀镍后的碳纤维电阻率降低两个数量级;复合材料电阻率随CF、NiCF含量的增加而逐渐减小;复合材料电磁屏蔽效能随CF、NiCF含量的增加而逐渐增加,当NiCF含量为25%(wt)(约13.3vol%)时,电磁屏蔽效能最高可达51dB。     

聚醚砜、聚醚醚酮的微波磺化研究

聚醚砜、聚醚醚酮的微波磺化研究牛利，张万金，吕慧娟，蒋大振（吉林大学化学系，长春，１３００２３）关键词聚醚砜，聚醚醚酮，微波磺化改性微波对被照射物质能产生深层加热作用，且加热速度快、均匀，因而在化学合成中可大幅度地提高反应速度［１，２］．对聚醚砜（Ｐ...     

碳纳米管/聚合物基柔性电磁干扰屏蔽复合材料研究进展

当今,柔性可穿戴电子设备、航空航天等领域的快速发展对柔性、轻质电磁干扰(electromagnetic interference,EMI)屏蔽材料的需求不断增加,碳纳米管/聚合物基复合材料因具有柔性好、质量轻、导电性和机械稳定性优异、EMI屏蔽效能可调等优点而备受关注。本文介绍了电磁屏蔽机理,对碳纳米管的分散方法和碳纳米管/聚合物基柔性EMI屏蔽复合材料的制备方法进行了对比总结,综述了碳纳米管/聚合物基柔性EMI屏蔽复合材料的研究进展。最后,提出了碳纳米管/聚合物基柔性EMI屏蔽复合材料亟待解决的关键科学问题,并对其未来发展趋势进行了展望。     

改性多壁碳纳米管/聚乳酸复合材料的研究

制备了改性多壁碳纳米管/聚乳酸复合材料,研究了改性多壁碳纳米管对聚乳酸的增强作用.通过拉曼光谱分析、热重分析证实了多壁碳纳米管酸化酯化反应的发生.通过溶液法制备了聚乳酸/改性多壁碳纳米管复合物.考察了聚乳酸和改性多壁碳纳米管复合体系的相容性.扫描电镜分析结果说明了聚乳酸和改性多壁碳纳米管复合物相容性的变化.随着改性多壁碳纳米管在复合物中含量的增加,体系的分散效果也越好,相容性也有提高.实验结果表明,在聚乳酸材料中添加改性碳纳米管材料到一定值对,可以提高材料的力学性能,且当改性碳纳米管添加量达到1.5％的时候材料力学性能达到了一个最大值,拉伸强度可达120.4MPa.     

填充碳纳米管/石墨的复合型电磁波屏蔽膜

介绍一种填充碳纳米管/石墨的复合型电磁波屏蔽膜的组成、制备及其耐老化性能,实验发现：当碳纳米管/石墨的配比为1/7～1/2、有机聚合物/导电填料的配比为29.6/70.4～32.4/67.6时,该屏蔽膜具有最佳的电性能、屏蔽性能和加工性能,且在一定条件下具有负的温度系数。用多层结构模型讨论了该屏蔽膜的导电性,并与铜、镍蒸发膜的屏蔽特性进行了比较。     

轻质柔性聚酰亚胺纸基电磁屏蔽材料的制备与性能

基于聚酰亚胺纤维纸基导电骨架(PI-CP)的三维网络结构, 通过聚吡咯(PPy)的气相沉积及无钯化学镀工艺在PI-CP上进行镍基金属的层层组装, 制备了夹芯结构的镍/聚吡咯@聚酰亚胺纤维纸基电磁屏蔽材料 (Ni/PPy@PI-CP); 对其形貌、 结构、 导电性能、 力学性能及电磁屏蔽性能进行了表征; 并考察了温度、 弯曲牢度和折叠次数对Ni/PPy@PI-CP导电性能和电磁屏蔽性能的影响. 研究结果表明, Ni/PPy@PI-CP-3的电磁屏蔽性能可达到70 dB以上; Ni/PPy@PI-CP-3在弯曲变形下表现出优良的导电稳定性, 其电导率损失可以忽略不计, 经过200次的反复弯曲测试, 其电导率仍保持在92.4%以上. 此外, Ni/PPy@PI-CP还具有轻质及易于加工的特性, 并具有稳定的热性能, 于300 ℃下处理后电磁屏蔽性能仍保持在80％以上.     

二苯醚—对苯二甲酰氯—4,4‘—二苯氧基二苯砜三元共聚物的合成与性能

以无水ＡｌＣｌ３／ＣｌＣＨ２ＣＨ２Ｃｌ／ＮＭＰ为催化剂／溶剂体系，通过缩聚反应，由二苯醚，对苯二甲酰氯和４，４－二苯氧基二苯砜合成了聚醚酮酮和聚醚砜醚酮酮共聚物（ＰＥＫＫ／ＰＥＳＥＫＫ）．考察了单体浓度、反应时间对聚合物分子量的影响，并对其进行了ＩＲ、ＤＳＣ、ＷＡＸＤ等分析表征．结果表明，共聚物具有优异的耐热性，随着共聚物中ＰＥＳＥＫＫ单元含量的增加，其玻璃化温度逐渐升高，而熔融温度和结晶度逐渐降低．与聚醚酮酮（ＰＥＫＫ）相比，共聚物的断裂伸长率明显提高，而拉伸强度和拉伸模量却有所下降，但仍具有良好的力学性能．     

A comparison of the strength of autohesion of plasma treated amorphous and semi‐crystalline PEEK films

Polyether ether ketone (PEEK) is a promising material for the encapsulation of electronic components for medical implants but a strong and hermetic joining technology is required. Autohesion is a self‐bonding method that avoids the need for adhesives. The strengths of autohesive joins using amorphous and semi‐crystalline PEEK films after surface activation using RF plasma were compared. Both types of PEEK films showed successful autohesion after activation with the bond strength of the amorphous sample being twice as high as the bond strength of the semi‐crystalline sample. Plasma treatment increased the autohesion strength of PEEK with no observed change in surface roughness (as measured by profilometer). The water contact angle was reduced by the treatment. X‐ray photoelectron spectroscopy (XPS) was carried out to determine surface chemistry. In the case of the semi‐crystalline surface, plasma treatment increased the relative percentage of C? O functional groups compared to the untreated surface. For treated surfaces nitrogen concentration correlated positively with bond strength while oxygen concentration correlated negatively with the semi‐crystalline PEEK samples and positively with the amorphous PEEK samples. The oxygen groups most likely are formed after the treatment by ambient oxidation are not conducive to bond formation, possibly because of the quenching of radicals that would otherwise form links. Copyright © 2010 John Wiley & Sons, Ltd.     

一种提高有机硅导电橡胶复合材料导电和电磁屏蔽性能的方法

描述了一种利用多元复合导电网络提高有机硅橡胶复合材料导电和电磁屏蔽性能的思想。这种含有多元复合导电网络的复合材料是通过将镀银泡沫、导电填料和有机硅橡胶复合在一起而制备的。利用扫描电子显微镜观察了复合材料的微观结构,采用电阻测试仪、矢量网络分析仪、热失重分析仪分别研究了复合材料的导电性、电磁屏蔽性能及热稳定性,并探讨了补强剂SiO2对这些性能的影响。结果表明,2%碳纳米管/导电泡沫/硅橡胶多元复合体系相比于2%碳纳米管/硅橡胶单一复合体系电阻率降低了6个数量级,平均电磁屏蔽效能由12dB提高到52dB,增大了4倍。当导电填料换为炭黑后,2%炭黑/导电泡沫/硅橡胶多元复合体系相比于2%炭黑/硅橡胶单一复合体系电阻率降低了7个数量级,平均电磁屏蔽效能由10dB提高到50dB,增大了5倍。由于多元复合导电网络,材料的导电性能和电磁屏蔽性能大幅度提升。此外,补强剂的加入增大了复合材料的热稳定性,但降低了其导电和电磁屏蔽性能。     

Physico-chemical analysis of semi-crystalline PEEK in aliphatic and aromatic solvents

Polyether ether ketone (PEEK) is a semi-crystalline thermoplastic polymer having excellent mechanical and thermal properties. Exposure of this polymer to aliphatic and aromatic solvents can lead to degradation or swelling of the polymeric material. The present work described the plasticization and stability analysis of semi-crystalline PEEK under different aromatic and aliphatic solvent environment. A variety of solvents (acetone, benzene, benzyl alcohol, chloroform, methanol, and toluene), based on their Hildebrand’s Solubility Parameter, were chosen for investigation. The physico-chemical characteristics of virgin and treated polymeric samples were investigated using Gas Chromatography–Mass Spectrometry (GC–MS), Thermogravimetric Analysis (TGA), Differential Scanning Calorimetry (DSC), and Fourier Transform Infrared Spectroscopy (FTIR) techniques. The results indicated that the solvent exposure did not significantly affect the thermal behavior and chemical structure of the polymer. However, it seems that certain components of the polymer were leached into the solvent phase as revealed by the GC–MS analysis. The present study identified PEEK as a potentially suitable polymer for the applications where high resistance to aliphatic and aromatic solvents is needed.     

屏蔽EMI的金属及炭素填充的高分子复合材料

屏蔽EMI材料是现代电子、电器工业不可缺少的材料之一,尤其是屏蔽EMI高分子材料已经成为绝大多数信息技术设备的壳体材料,它们在现代电子工业中有着举足轻重的地位.本文对屏蔽EMI的方法及高分子复合材料的特性和发展概况等作简要介绍.     

Progress in the Foaming of Polymer-based Electromagnetic Interference Shielding Composites by Supercritical CO2

As a critical action plan formulated for peaking carbon dioxide emissions, polymeric electromagnetic interference (EMI) shielding materials based on CO₂ foaming technology have recently been attracting widespread attention in both research and industry, attributable to their efficient use of CO₂, high specific strength, corrosion resistance and low-cost characteristics. In the past decade, the emergence of novel design concepts and preparation techniques for CO₂ foaming technology has led to the development of new high-performance EMI shielding materials in this field. This review summarizes the research progress made to date on the fabrication of EMI shielding composite foams by supercritical carbon dioxide (scCO₂) foaming. We also explore the structure-activity relationships between the component/distribution and EMI shielding properties. Additionally, the application prospects and development challenges of new EMI shielding composite foams are described.     

CoFe2O4及其膨胀石墨复合物的制备与电磁性能

通过超声-共沉淀技术合成了CoFe₂O₄(CF)及CoFe₂O₄/膨胀石墨复合物(CF/EG), 并表征了样品的微观结构、形貌、热稳定性和电磁性能.结果表明, CF的磁性能受沉淀剂类型和烧结温度等因素的影响, CF/EG复合物具有良好的导电性、磁性和电磁波吸收性能.EG与CF质量比为0.8的CF/EG复合物和石蜡制成的2.0 mm涂层(质量比1:2)在13.52 GHz处的最小反射损耗为-16.08 dB, 有效带宽达6.6 GHz, 在10~18 GHz频段表现出良好的电磁波吸收性能.复合物的吸波性能主要来自于膨胀石墨的电导损耗和介电损耗、钴铁氧体的磁损耗、组分间的界面弛豫作用及协同效应.     

Preparation and Properties of Poly（ether ether ketone）/Carbon Nanotube Modified Polypropylene Janus Composite Separator北大核心CSCD

Lithium-ion batteries （LIBs）have attracted wide attention because of their broad prospects in electric vehicles. However,the safety problems and low multiplier performance of the commercial polyolefin separator limit their further development,due to the poor dimensional thermal stability and low electrolyte absorption rate. Poly（ether ether ketone）（PEEK）and carbon nanotube（CNT）are compounded to coat on polypropylene （PP） to prepare Janus composite separator （PP@C） through the phase inversion method. PP@C composite separator does not deform at 180 ℃ for 0. 5 h（only slight deformation）,illustrating excellent thermal stability. The electrolyte absorption rate of PP@C2 is 193. 8%. The electrolyte uptake rate of the PP@C2 composite membrane was 193. 8%,which was 64. 5% higher than the PP membrane,showing a superduper electrolyte permeability. As a result,the specific discharge capacity of LIBs assembled with PP@C2 composite separator is 157. 6 mA·h/g at 0. 2 C and 129. 8 mA·h/g at 2 C,showing good rate performance with the capacity recovery rate of more than 99%. This might be attributed to the ultra-high thermal stability of PEEK,the good affinity of the electrolyte,the high conductivity of CNT,as well as the uniform dispersion of Li+ ,so that the separator can have excellent electrochemical performance while improving safety. © 2022, Science Press (China). All rights reserved.