预中间相沥青的研究

本文将煤焦油沥青用吡啶萃取,除去灰分、杂质后,得到预处理沥青。预处理沥青,在热缩聚时容易出现巨大的芳香片层结构,使缩聚沥青含有较多的中间相而呈各向异性,提高软化点和可纺温间。作者选用1,2,3,4-四氢喹啉对它进行氢化改性,得到具有环烷结构的改性沥青。改性沥青经热缩聚,可得到软化点低,中间相含量少,可纺性好的预中间相沥青(具有中间相结构而不显光学各向异性),纺丝后可得到抗拉强度σ-9100kg/cm²的碳纤维。     

热改质过程中渣油结构及其重组分溶剂化变化规律研究

以委内瑞拉减压渣油为原料,采用微型反应釜,研究了其在410℃、2.0 MPa氮气初压下,不同反应停留时间的热改质过程生成油的化学结构组成及其重组分溶剂化变化规律。通过1H-NM R技术研究了热改质过程生成油中沥青质和重胶质不同化学位移归属氢的转化路径;并结合改进的Brown-Ladner法分析了热改质过程生成油中沥青质和重胶质的平均分子结构参数变化;采用蒸汽压渗透法考察了热改质过程生成油中沥青质和重胶质在甲苯溶液中所形成的复合超分子结构的平均相对分子质量。结果表明,随着热改质程度的加深,沥青质和重胶质的H/C原子比减小,供氢能力逐渐下降,沥青质和重胶质的芳香环共轭程度和fA在体系生焦后(45 min)显著提高;沥青质的聚集趋势相关值在热改质15 min前变化不大,15 min后显著增强,而重胶质在整个热改质过程中,其聚集趋势相关值的增势较为缓和;沥青质和重胶质的聚集趋势相关值差异逐渐增大,15 min时增加了1.5%、25 min时增加了50.8%、45 min时增加了142.3%,表明沥青质和重胶质的结构差异越来越明显;重胶质溶剂化沥青质的能力逐步减弱,体系的溶剂化参数从0时的32.9%逐步降到15 min时的29.5%、25 min时的14.1%和45 min时的9.6%;热改质生成油的斑点实验等级逐渐增加,体系的胶体稳定性逐渐降低。     

超临界水中煤焦油沥青轻质化的实验研究

采用间歇超临界水（supercritical water, SCW）反应器,考察了反应温度（400℃~480℃）、停留时间(1 min~80 min)和反应压力（25 MPa~40 MPa）对煤焦油沥青轻质化的影响。与常压N2热解相比,煤焦油沥青在SCW中反应后产物中的轻油质量分数高,残焦质量分数低,表明SCW可以促进煤焦油沥青的轻质化反应进行并抑制缩合反应。沥青质是煤焦油沥青在SCW中发生反应的主要组分。在440 ℃和34 MPa时反应20 min,产物中轻油的质量分数可达原料的两倍,说明煤焦油沥青在SCW中可以发生明显轻质化反应。与温度相比,压力和停留时间的影响相对较小。     

喹啉不溶物对煤沥青热聚合改质影响的研究

采用软化点相同但喹啉不溶物（QI）含量不同的中温沥青为原料，进行了几类煤沥青的热聚合改质试验。研究表明，煤沥青原料QI含量对热聚合改质过程和产物改质沥青的性能指标影响很大，并且热聚合期间改质沥青的次生QI转变速率与原料煤沥青的QI含量成正比关系，通过对不同类型QI组分的分析，探讨了QI组分影响煤沥青热聚合改质的机理，认为原料煤沥青所含原生QI炭微粒促进了热聚合改质过程中煤沥青芳烃分子的聚合。     

煤沥青橡胶改质筑路油老化过程中族组成与性质变化

实验室与户外跟踪老化研究发现 ,道路沥青在使用过程中的质量蜕变主要是由于氧化作用[1,2 ]使得道路沥青中沥青质含量增加 ,改变了沥青中分散相与连续相的比例 ,致使沥青的性质发生变化 ,如软化点升高、针入度降低以及粘度增加等[3,4]。上述研究所取得的成果主要是以石油为原料的道路沥青 ,对以煤沥青为原料开发的改质筑路油研究较少。本文在成功开发煤沥青改质筑路油工艺的基础上 ,研究了改质筑路油热老化过程中族组成与性质的变化 ,由此提出煤沥青改质筑路油高温热老化过程中性质变化的主要原因。1　实验部分1 1　原料　试验所用原料为实…     

煤焦油在超临界水中的改质研究

在自制的间歇式高压反应釜中，对煤焦油在超临界水中的改质反应进行了研究。考察了温度、反应停留时间、水密度等对产物分布及组成的影响。通过与N2气氛下的焦油常压热解、高压热解过程所得结果进行对比，表明煤焦油在超临界水中发生了轻质化反应，获得一定量的轻质化油品；超临界水介质的存在还对产气量和过程结焦产生一定的抑制作用。为获得较高的轻组分收率，最佳的反应条件为：450℃左右，反应停留时间约为20 min，水密度约为0.40 g/cm3在此反应条件下的轻质油收率为51.55 w%，比原料中的增加了约30％。     

加拿大油砂沥青减压渣油在CO/H2-H2O作用下的热改质特性研究

以加拿大油砂沥青大于420℃的减压渣油（BVR）为原料,对比研究其在CO/H₂-H₂O和N₂体系中的热改质特性,通过系统分析BVR在H₂-H₂O、CO-H₂O、N₂-H₂O等不同氢源下的热改质特性以揭示CO/H₂-H₂O对渣油热改质的作用机制,最后探讨合成气压力、含水量以及温度对BVR临CO/H₂-H₂O改质生焦倾向的影响。结果表明,与临氮改质相比,相同反应条件下,合成气和水可使BVR热改质的生焦诱导期延长3.5-6.5 min;相同生焦率（约0.1%）时,合成气和水可显著提升BVR热改质降黏率,410℃时相对临氮改质的降黏率为29.1%,而420℃时可达54.6%。比较不同氢源下BVR热改质的生焦诱导期、改质油黏度和安定性、渣油转化率发现,H₂-H₂O、CO-H₂O、N₂-H₂O等均对BVR热改质表现出与CO/H₂-H₂O相同的促进效果,各氢源作用活性的大小顺序为H₂-H₂O > CO/H₂-H₂O > CO-H₂O > N₂-H₂O。由此可知,CO/H₂-H₂O对渣油热改质的促进作用可归因于氢气、CO水热变换新生氢和水热裂解的综合效应,且其中氢气的作用仍最显著。合成气压力、含水量和反应温度可通过影响不同氢源的贡献而调控BVR临CO/H₂-H₂O改质生焦倾向。低成本易获取的合成气可以提供BVR热降黏改质所需氢源,水能够通过CO水热变换反应供出新生活泼氢而协同合成气实现BVR高效改质。     

煤沥青的电化学加氢

为选择适于作为碳纤维原料的煤沥青，对三咱中低温煤沥青的预处理和组成结构进行研究，同时对其中的太钢煤沥青进行了热缩聚制取中间相沥青的结构变化分析。研究分析结果表明，只要经过合适的工艺路线进行处理，这三种煤沥青都有可能作为沥青基碳纤维的原料。     

煤沥青的电化学加氢──Ⅰ．原料煤沥青的预处理和组成结构分析

为选择适于作为碳纤维原料的煤沥青，对三种中低温煤沥青的预处理和组成结构进行了研究，同时对其中的太钢煤沥青进行了热缩聚制取中间相沥青的结构变化分析。研究分析结果表明，只要经过合适的工艺路线进行处理，这三种煤沥青都有可能作为沥青基碳纤维的原料。     

煤系针状焦偏光显微结构的识别及定量分析

以精制煤焦油沥青为原料制备针状焦。利用bricc-m煤岩自动测试系统和RICC-Imager图像分析软件,使用打点计数方法,对煤系针状焦偏光显微结构进行定量分析。进一步利用扫描电子显微镜进行针状焦微观结构解析。结果表明,在炭化温度为490℃、炭化压力为0.2 MPa、反应时间为6 h条件下制备的生焦,定量分析其广域流线型结构含量为87.8%,显示出较好的光学显微结构。对比传统人工定量分析方法,使用计算机打点计数方法进行定量分析,提高了测试结果的准确性,更加高效,是针状焦显微结构识别和定量分析的有效手段。     

Biaxial orientation of polyamide films: processability and properties

The production of biaxially oriented films can be performed with two techniques: the tenter frame and the double bubble process. The most important difference between the two processes is that in tubular orientation the MD and TD stretching are simultaneous. This event is very important specially in the case of biaxially oriented polyamide films to avoid hydrogen bonding which occur during the first stretching stage of tenter frame process and cause resistance to subsequent transverse direction orientation (1-4). Double bubble process consists in the stretching of a tubular film where the stretching ratios in the machine and transverse directions are determined by inside bubble pressure and the difference in roll speeds between the two sets of nips rolls that contain the bubble. The work presented here reports some results about double bubble polyamide films realised with a laboratory scale system. The study concerns the processability (5-6) of two different polyamides: a nylon 6 (PA6) and a copolymer of the nylon 6 with isophthalic acid and isophorondiamine (PA6 - IPA.IPD) at 5% w/w of comonomer. Two main process arrangements where adopted differing for first bubble cooling technique: a water cooling and a air cooling. The films produced in both conditions were then characterised with a particular regard to mechanical and barrier performances. Morphological analyses were also carried out in order to correlate the process conditions to structure and properties of films.     

Solution‐blown nylon 6–chitosan core–shell nanofiber for highly efficient affinity adsorption

A facile spinning‐based strategy was developed to fabricate chitosan (CS) surface nanofiber‐based affinity membranes for protein adsorption. The core–shell nanofiber mat of nylon 6–CS was prepared via coaxial solution blowing process. The nanofibers have a diameter range of 60–300 nm. The core–shell structure was confirmed by transmission electron microscopy, and CS was observed as a thin layer that uniformly adhered to the core. The dye ligand of cibacron blue F3GA (CB F3GA) was further covalently immobilized on the nanofibers with a content of 425 µmol/g. The pristine and CB F3GA‐attached mats were studied in protein adsorption. High bovine serum albumin adsorption capacities of 91.9 and 219.6 mg/g were obtained for pristine and CB F3GA‐attached mats, respectively. Given its properties of high flux rate and low pressure drop, CB F3GA‐attached nylon 6–CS nanofiber mat meets the requirements of highly effective affinity membrane chromatography. Copyright © 2016 John Wiley & Sons, Ltd.     

Dynamic mechanical and dielectric relaxation characteristics of microcellular rubber composites

An in‐depth study of the surface characteristics of novel conductive carbon black Ensaco 350G has been carried out using XPS and high‐resolution vacuum FTIR. Both methods showed the existence of oxygen containing surface groups like carboxyls, carbonyls, etc. Dynamic mechanical analysis and dielectric relaxation spectra of conductive carbon black (Ensaco 350G) reinforced microcellular EPDM composites were used to study the relaxation behavior as a function of temperature (?90 to +100°C) and frequency (100–10⁶ Hz). The effect of filler and blowing agent loadings on dynamic mechanical and dielectric relaxation characteristics has been investigated. The effect of filler and blowing agent loadings on glass transition temperature was marginal for all the composites (T_g value was in the range of ?37 to ?32°C), which has been explained on the basis of relaxation dynamics of polymer chains in the vicinity of fillers. The variation in the real and imaginary parts of the complex impedance with frequency has been studied as a function of filler and blowing agent loading. Additionally, an in‐depth study of the surface characteristics of the filler using XPS, high‐resolution vacuum FTIR and Raman spectra is also reported. Copyright © 2008 John Wiley & Sons, Ltd.     

Chain Extension and Foaming of Recycled PET in Extrusion Equipment

In this work industrial scraps of poly(ethylene terephthalate) (PET) were used for the production of foamed sheets. The process was performed by making use of a chemical blowing agent (CBA) in the extrusion process. Due to the low intrinsic viscosity of the recycled PET (IV=0.48dl/g), a chain extender was also used in order to increase the molecular weight of the polymer matrix. Pyromellitic dianhydride (PMDA) and Hydrocerol CT 534 were chosen as chain extender and CBA, respectively. The reactive extrusion and foaming were performed in a two step process, analyzing the feasibility regarding an eventual use in an industrial context. Rheological characterization was carried out on PET samples previously treated with PMDA, as well as the morphological study was performed to define the cellular structure of the foams produced. Moreover, in order to correlate the working conditions in the reactive and the foaming processes with the final morphology of the foams, a mathematical modelling of the foaming process was applied.     

Anionic polymerization: High vacuum techniques

Anionic polymerization is a powerful tool for the synthesis of a variety of model materials with well‐defined molecular characteristics. However specially designed apparatuses and appropriate high vacuum techniques are needed in order to exclude from the reaction environment all reactive contaminants with the anionic centers. This review describes the basic principles of anionic polymerization as well as detailed experimental methods for the purification of the reagents usually used for the synthesis of model polymeric materials. In addition a few examples of the synthesis of polymers with complex architecture are given. © 2000 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 38: 3211–3234, 2000     

Processing and characterization of LDPE/starch/PCL blends

Low-density polyethylene/plasticized starch/polycaprolactone blends were processed by conventional extrusion, injection molding, and film blowing techniques. The glass transition temperatures of plasticized starch were determined using differential scanning calorimetry. The blends were characterized by mechanical property measurements and scanning electron microscopy. The blend properties were found to depend not only on composition but also on the generated morphology. In films the fine dispersion of polycaprolactone phase in the polyethylene/starch matrix resulted in mechanical property increase, while in injection specimens there was property decrease due to phase coalescence. It appears that the different conditions existing at the two different shaping processes i.e. film blowing and injection molding could account for the final obtained morphology.     

Fundamental investigation on effect of microencapsulated water on expansion behavior of microcapsules

The microcapsules containing water were prepared with the suspension polymerization method, and the fundamental investigation was performed to make the effect of microencapsulated water on expansion behavior of microcapsules clear. In the experiment, only the volume of water added into styrene monomer was changed to make the effect of microencapsulated water volume clear, and three kinds of water contents were measured: namely, the initial water content for the microcapsules just after preparation, the middle water content for the microcapsules dried at 44°C for 24 hours, and the final water content for the microcapsules dried at 110°C for 1 hours. With increasing the added water volume, the initial water content increased; the middle water content decreased after increasing halfway through, and the final water content gradually decreased. Also, with increasing the added water volume, the drying rate of the microcapsules increased and the expansion ratio decreased. The water volume required to expand the microcapsules, in other words, the critical shell thickness required to prevent evaporation of water and to contribute to expansion of microcapsules is discussed.     

The influence of various deformation histories on elongational properties of low density polyethylene

Summary The elongational viscosity of low density polyethylenes depends on the mechanical history as is demonstrated on the samples IUPAC A and IUPAC C and some other specimens. IUPAC C which stems from the same batch as IUPAC A but has undergone an additional extrusion shows a significantly lower elongational viscosity whereas the shear viscosity remains nearly unchanged. The elastic behaviour measured by the recoverable strain is not influenced by a mechanical pretreatment. The viscosity decrease is found to be canceled to its greatest extent after dissolving the sample in xylene and evaporating the solvent. Pure elongation seems to be more effective in creating the viscosity decrease than pure shear. A similar effect could not be found for linear polyethylene and polystyrene. This result leads to the assumption that the branched molecules give rise to a mechanically induced change of the entanglement structure which can be reverted by dissolving. The evidence of the elongational behaviour for film blowing is discussed.Dedicated to Professor Dr. Reif on the occasion of his 60th birthday.     

Solution Blowing of Poly（dimethylsiloxane）/Nylon 6 Nanofiber Mats for Protective Applications

A new strategy was developed to fabricate superhydrophobic nylon 6 nanofibers, in which the blend solutions of poly(dimethylsiloxane)(PDMS) prepolymer and nylon 6 was spun using an innovative solution blowing process, and then the PDMS prepolymer contianning nanofibers were cured to obtain PDMS/nylon 6 nanofiber mats. Morphology, surface composition, non-wetting property and protective performance were investigated. The results showed that the addition of PDMS prepolymer improved the spinnability of the spinning solutions, and the PDMS/nylon 6 nanofibers had smooth surfaces and diameters from 100 nm to 350 nm. The presence of PDMS effectively enhanced the hydrophobicity of the nanofiber mats, showing water contact angles of 132° to 161° for PDMS contents of 1 wt% to 3 wt%. The PDMS/nylon 6 mats also possessed excellent protective and transport properties. The results indicated the potential application of the novel nanofiber mats in protective clothing.