裂解气相色谱-质谱法研究聚醚酰亚胺的热裂解行为

采用裂解气相色谱-质谱技术研究了聚醚酰亚胺(PEI)在550℃、650℃和750℃裂解温度下的热分解行为.随着裂解温度上升,裂解产物明显增加.在750℃时聚合物分子链断裂完全,共鉴别到25种碎片组分.PEI热分解的碎片中叔丁基苯酚、叔丁基甲基苯酚、苯酚、苯胺、氰苯、2-苯基-1H-异吲哚-1,3(2H)-二酮等5种裂解产物最重要,因此可以依据这几种化合物定性鉴别聚醚酰亚胺.依据热分解产物的数量以及结构推断降解机理为:裂解首先从醚键开始,其次是酰胺基团中的C-N键,然后再经过一系列消除反应、成环反应、重排反应等形成多种裂解碎片.     

基于TG-FTIR的杨木热解过程中脲醛树脂影响机理的模型物研究

热解是废弃人造板高效回收利用的方式,人造板中所含胶黏剂是其不同于生物质的主要特征。为了有效环保地利用热解技术处理废弃人造板,解明人造板热解过程中其所含脲醛树脂胶黏剂(UF)对木材热解特性的影响,深入探索UF对人造板中木材各组分的作用机制,以杨木及木材的三种主要组分(纤维素、半纤维素、木素)为研究对象,创新性地依据杨木的化学组成,以纤维素、木聚糖和木素配制成模型物,并加入UF模拟人造板的构成。利用热重红外光谱联用(TG-FTIR)分析法,对比分析了加入UF前后模型物以及杨木各主要组分的热失重特性及气相演变规律。热重及红外结果表明,UF促进了纤维素热解过程中水和羧酸类物质的生成。UF与木素结合生成热不稳定的含氮结构,释放大量氨气,并且在200～300 ℃区间内参与了木素的热解并直接影响木素热解产物的生成。由此推测,在人造板热解过程中,木材三种主要组分中与UF作用的主要成分是木素。     

傅里叶红外光谱法研究GAP/AP混合体系的快速热裂解

用T-Jump/FTIR在线联用分析技术,研究了GAP/AP混合体系在模拟燃烧条件下快速加热高温高压的热裂解。结果表明,GAP/AP混合体系的主要热裂解气相产物的组成发生了变化,说明组分之间存在相互作用。压力对GAP/AP混合体系气相产物有明显的影响,表明混合体系组分GAP和AP之间的相互作用是通过AP分解气相产物进行的,混合体系不但存在气相之间的反应,也存在气相/凝聚相反应。而温度并没有影响AP对GAP的作用。用T-Jump/FTIR在线分析技术能够实现模拟燃烧条件下含能材料实时气体产物分析,为从微观反应的角度探索含能材料的快速高压热裂解及其组分之间的相互作用提供一条技术途径。     

高硼含量的SiC陶瓷先驱体的合成和表征

采用经典硼氢化反应, 通过硼烷二级硫醚(BH₃·SMe₂)与二甲基二乙烯基硅烷(DVS)反应, 合成了聚硼碳硅烷(PBCS)陶瓷先驱体, PBCS在氮气中经高温裂解得到了高硼含量的SiC陶瓷.利用红外光谱、核磁共振波谱和热重分析对聚合物的结构和性能进行了表征; 利用元素分析、X射线衍射和扫描电子显微镜对聚合物的裂解产物进行了分析.结果表明, 聚合物的结构中含有B—C, Si—C和C—H键, 在1000℃氮气气氛中, 其陶瓷产率在50%以上.陶瓷产物在1100℃以无定形态存在, 硼含量高达6.46%, 在1300℃时出现明显结晶, 形成B₂O₃, C和β-SiC三相组成的多元复相陶瓷, 在1500℃以下陶瓷产物表面光滑, 结构致密.     

Acoustic cavitation in 1-butyl-3-methylimidazolium bis(triflluoromethyl-sulfonyl)imide based ionic liquid

In this work, a comparison between the temperatures/pressures within acoustic cavitation bubble in an imidazolium-based room-temperature ionic liquid (RTIL), 1-butyl-3-methylimidazolium bis(triflluoromethyl-sulfonyl)imide ([BMIM][NTf₂]), and in water has been made for a wide range of cavitation parameters including frequency (140–1000 kHz), acoustic intensity (0.5–1 W cm⁻²), liquid temperature (20–50 °C) and external static pressure (0.7–1.5 atm). The used cavitation model takes into account the liquid compressibility as well as the surface tension and the viscosity of the medium. It was found that the bubble temperatures and pressures were always much higher in the ionic liquid compared to those predicted in water. The valuable effect of [BMIM][NTf₂] on the bubble temperature was more pronounced at higher acoustic intensity and liquid temperature and lower frequency and external static pressure. However, confrontation between the predicted and the experimental estimated temperatures in ionic liquids showed an opposite trend as the temperatures measured in some pure ionic liquids are of the same order as those observed in water. The injection of liquid droplets into cavitation bubbles, the pyrolysis of ionic liquids at the bubble-solution interface as well as the lower number of collapsing bubbles in the ionic liquid may be the responsible for the lower measured bubble temperatures in ionic liquids, as compared with water.     

裂解气中痕量杂质的测定

应用色谱-质谱联用仪（GC-MS）研究了裂解气中痕量NO、AsH3、COS、硫醇、硫醚、甲醇等杂质的分析方法,研究结果表明该法具有灵敏度高、选择性好的特点,可为裂解气的利用研究提供可靠的数据,经过改进后还有可能被乙烯和丙烯生产厂用作乙烯或丙烯中痕量杂质分析的常规方法。     

Flash pyrolysis of polystyrene wastes in a free-fall reactor under vacuum

Plastic waste minimization and recycling are important for both economical and environmental reasons. In this flash pyrolysis study, polystyrene wastes were degraded in a free-fall reactor under vacuum to regain the monomer. A set of experiments varied the temperature between 700 and 875°C and determined its effects on the phase yields, the benzene, styrene, toluene, and naphthalene distribution of the liquid output and C1–C4 content of the gaseous output. The liquid yield maximized around 750°C and the styrene yield at 825°C. In general, operating at higher temperatures lessened the solid residue and increased the gaseous yield and total conversion. Employing waste particles in four size ranges, a second set of runs indicated that the finer the waste particles fed the higher the gaseous yield and total conversion. This recycling method can be made more promising if the feed particles are allowed more time for degradation and the removal of the primary products speeded up thereby preventing their decomposition. Ways are suggested to obviate these residence time problems.     

碳包覆纳米金属颗粒的合成研究进展

碳包覆纳米金属颗粒是继富勒烯和碳纳米管之后的又一新型纳米碳材料,在许多领域具有广泛应用前景。本文综述了碳包覆纳米金属颗粒的合成方法,包括：电弧放电法、化学气相沉积法、热解法、液相浸渍炭化法和炭凝胶爆炸法等,简述了形成机理,总结了各自的优缺点,并指出将来的发展方向。     

Thermal Characterization of Materials Using Evolved Gas Analysis

Thermal analysis combined with evolved gas analysis has been used for some time. Thermogravimetry (TG) coupled with Fourier transform infrared (FTIR) spectroscopy(TG/FTIR), Thermogravimetry (TG) coupled with mass spectrometry (TG/MS), and Thermogravimetry (TG) coupled with GC/MS offers structural identification of compounds evolving during thermal processes. These evolved gas analysis (EGA) techniques allow to evaluate the chemical pathway of the degradation reaction by determining the decomposition products. In this paper the TG/FTIR, TG/MS, and Pyrolysis/GC-MS systems will be described and their applications in the study of several materials will be discussed, including the analysis of the degradation mechanisms of organically modified clays, polymers, and coal blends. This revised version was published online in July 2006 with corrections to the Cover Date.     

低压下酞菁裂解法制备定向碳纳米管阵列

在低压条件下以酞菁铁为原料, 采用独立双温控加热系统在石英玻璃基底上气相沉积制备了大面积准直性好和管径均匀的碳纳米管. 利用扫描电子显微镜(SEM/FESEM)和透射电子显微镜(TEM)研究了定向碳纳米管的生长形态和结构. 详细讨论了系统真空度、反应温度、气体流速及氢气和氩气的体积比例等参数对碳纳米管生长的影响, 并测试了该碳纳米管的场发射性能及超电容性能.