先进陶瓷基复合材料制备技术-CVI法现状及进展

化学气相渗透法(CVI)是制备先进陶瓷基复合材料最赋潜力的技术.本文概要阐述了CVI法的原理与动力学机制,论述了CVI先进陶瓷基复合材料中纤维、基体、界面的研究现状,对不同类型的CVI工艺及目前的CVI模拟技术作了一定的评价,提出了CVI技术的发展方向和研究课题.     

界面类型对三维Nextel 720纤维增韧莫来石陶瓷基复合材料力学性能的影响

采用化学气相渗透工艺在Nextel 720纤维表面制备PyC和PyC／SiC两种涂层，然后以正硅酸乙酯和异丙醇铝作为先驱体，以先驱体浸渗热解法制备三维Nextd 720纤维增韧莫来石陶瓷基复合材料，比较分析了两种涂层复合材料的力学性能和断裂模式。结果表明：具预先涂覆PyC的复合材料中纤维与基体直接接触，发生烧结形成强结合界面，复合材料脆性断裂，三点抗弯强度仅56MPa。PyC／SiC涂层则演化为间隙／SiC复合界面层，SiC成为阻滞纤维与基体接触的阻挡层，间隙保证了纤维拔出，复合材料韧性断裂且三点抗弯强度高达267．2MPa。     

碳/碳复合材料等温化学气相渗透工艺模糊系统建模

等温化学气相渗透(chemical vapor infiltration，CVI)是制备陶瓷基和碳基复合材料重要的传统工艺，该工艺主要的不足之处是周期极长，因此，优化工艺参数、提高沉积效率是目前等温CVI工艺研究的重点。在实验样本的基础上，利用遗传算法来自动获取和优化模糊规则，从而建立了碳／碳复合材料等温CVI工艺模糊系统。通过系统对训练样本和测试样本的输出，可以看出：系统具有较高的精度和泛化能力。利用该系统，得到了沉积温度、纤维体积分数和沉积室压强等参数对等温CVI工艺的影响规律，对实际生产中CVI工艺的制定有指导意义。     

变密度预制体C/C复合材料压缩性能的研究

采用平均密度不同的预制体制备变密度预制体C/C复合材料,并对应制备了常用的恒密度预制体C/C复合材料.研究了不同结构和不同平均密度的预制体对C/C复合材料压缩性能的影响.实验结果表明,变密度预制体C/C复合材料的压缩强度远远大于相同平均预制体密度的恒密度预制体C/C复合材料,并且随预制体平均密度的增大呈先增大后下降的趋势.由于预制体内部纤维含量的不同分布状态,变密度预制体C/C复合材料的压缩破坏同时呈现出压溃和剪切破坏模式.     

高性能C/C复合材料制备工艺研究

对制备C/C复合材料的化学气相渗透工艺进行了系统的实验研究,着重分析了热解碳的沉积过程。研究表明,在化学气相渗透的初始阶段,热解碳主要在碳纤维表面沉积,并与碳纤维之间形成了界面结合;随后,热解碳的沉积继续填充碳纤维预制体内部的气孔。这一过程有助于缓解纤维与陶瓷基体之间的界面应力。研究表明,通过调节热解碳的沉积时间可以得到具有一定密度梯度的C/C复合材料。     

CVI法制备先进陶瓷基复合材料

化学气相渗透(CVI)是最具潜力的先进陶瓷基复合材料(CMC)制备工艺。本文概要阐述了CVI技术的基本原理和工艺特点，对不同类型的CVI工艺进行了简单论述和评价，并提出了解决制件中大量残余气孔率的新思路、新方法，最后还对CVI技术的今后发展方向进行了展望。     

沉积温度对微波热解CVI制备碳/碳复合材料密度及组织结构的影响

以碳毡为预制体,N2为稀释气体,甲烷为碳源前驱体,其分压为10 kPa,滞留时间为0.15 s的工艺条件下,研究了不同沉积温度对微波热解化学气相渗透(chemical vapor infiltration,CVI)工艺制备碳/碳复合材料的致密化速率、样品的体积密度及其密度均匀性的影响,并对其组织结构进行了观察.分析了沉积温度对微波热解CVI工艺制备碳/碳复合材料的密度与组织结构的变化规律.结果表明:在微波热解CVI工艺中,随着沉积温度的降低,碳毡预制体的致密化速率及最终体积密度呈现先升后降,1100 ℃沉积制备复合材料的密度均匀性最好,并呈现从内到外逐步沉积的规律.热解碳的织构主要为中等织构.     

纤维增强陶瓷基复合材料概述

连续纤维增强陶瓷基复合材料是最有前途的高温结构材料之一,以其优异的高韧性、高强度得到世界各国的高度重视。综述了纤维增韧陶瓷基复合材料的选材原则、主要的增韧机理、制备方法以及目前主要的界面改性方法。得到以下结论：纤维的选择必须满足工作环境的要求,纤维与基体之间要在热力学上相匹配;主要的增韧机理为载荷转移、微裂纹增韧、裂纹偏转、纤维脱粘和纤维拔出;复合材料的主要制备方法是热压法、CVI法和聚合物浸渍裂解法;目前最有效的界面改性方法是纤维表面涂层。用氧化物纤维作为增韧体,研究更加简单适用于大规模生产的制备方法,研究更加简单的涂层工艺是今后研究纤维增强陶瓷基复合材料的重点。     

针刺+缝合预制体C/C复合材料的制备及性能研究

以无纬布/碳纤维网胎为原料,采用针刺+接力缝合的工艺流程制备预制增强体,并经化学气相渗透(CVI)联合沥青浸渍/高压碳化(HPIC)方法得到新型厚壁C/C复合材料。对该材料进行了力学和热物理性能测试,并观测其微观断口形貌。结果表明:此预制体制备方法能够突破传统缝合材料在厚度方向上的尺寸限制,工艺过程简便,不易变形且利于致密。所得C/C材料厚度方向的纤维密度较高,具有优异的机械和良好的热物理性能,能够满足固体火箭发动机等极端环境下的应用需求。     

碳化硅纤维及其复合材料

碳化硅纤维及其复合材料是目前使用温度最高的增强材料和先进复合材料，本文简要介绍先驱体转换法和化学气相沉积法制备碳化硅纤维的工艺，不同工艺方法制备的碳化硅纤维的性能比较，碳化硅纤维及其复合材料的现状与应用。     

Insect antifeedant properties of anthranoids from the genusVismia

Vismiones and ferruginins, representatives of a new class of lypophilic anthranoids from the genusVismia were found to inhibit feeding in larvae of species ofSpodoptera, Heliothis, and inLocusta migratoria.     

Many Drugs of Abuse May Be Acutely Transformed to Dopamine,Norepinephrine and Epinephrine In Vivo

It is well established that a wide range of drugs of abuse acutely boost the signaling of the sympathetic nervous system and the hypothalamic–pituitary–adrenal (HPA) axis, where norepinephrine and epinephrine are major output molecules. This stimulatory effect is accompanied by such symptoms as elevated heart rate and blood pressure, more rapid breathing, increased body temperature and sweating, and pupillary dilation, as well as the intoxicating or euphoric subjective properties of the drug. While many drugs of abuse are thought to achieve their intoxicating effects by modulating the monoaminergic neurotransmitter systems (i.e., serotonin, norepinephrine, dopamine) by binding to these receptors or otherwise affecting their synaptic signaling, this paper puts forth the hypothesis that many of these drugs are actually acutely converted to catecholamines (dopamine, norepinephrine, epinephrine) in vivo, in addition to transformation to their known metabolites. In this manner, a range of stimulants, opioids, and psychedelics (as well as alcohol) may partially achieve their intoxicating properties, as well as side effects, due to this putative transformation to catecholamines. If this hypothesis is correct, it would alter our understanding of the basic biosynthetic pathways for generating these important signaling molecules, while also modifying our view of the neural substrates underlying substance abuse and dependence, including psychological stress-induced relapse. Importantly, there is a direct way to test the overarching hypothesis: administer (either centrally or peripherally) stable isotope versions of these drugs to model organisms such as rodents (or even to humans) and then use liquid chromatography-mass spectrometry to determine if the labeled drug is converted to labeled catecholamines in brain, blood plasma, or urine samples.     

Methyl 2,4,6-decatrienoates Attract Stink Bugs and Tachinid Parasitoids

Halyomorpha halys (Stål) (Pentatomidae), called the brown marmorated stink bug (BMSB), is a newly invasive species in the eastern USA that is rapidly spreading from the original point of establishment in Allentown, PA. In its native range, the BMSB is reportedly attracted to methyl (E,E,Z)-2,4,6-decatrienoate, the male-produced pheromone of another pentatomid common in eastern Asia, Plautia stali Scott. In North America, Thyanta spp. are the only pentatomids known to produce methyl 2,4,6-decatrienoate [the (E,Z,Z)-isomer] as part of their pheromones. Methyl 2,4,6-decatrienoates were field-tested in Maryland to monitor the spread of the BMSB and to explore the possibility that Thyanta spp. are an alternate host for parasitic tachinid flies that use stink bug pheromones as host-finding kairomones. Here we report the first captures of adult and nymph BMSBs in traps baited with methyl (E,E,Z)-2,4,6-decatrienoate in central Maryland and present data verifying that the tachinid, Euclytia flava (Townsend), exploits methyl (E,Z,Z)-2,4,6-decatrienoate as a kairomone. We also report the unexpected finding that various isomers of methyl 2,4,6-decatrienoate attract Acrosternum hilare (Say), although this bug apparently does not produce methyl decatrienoates. Other stink bugs and tachinids native to North America were also attracted to methyl 2,4,6-decatrienoates. These data indicate there are Heteroptera in North America in addition to Thyanta spp. that probably use methyl 2,4,6-decatrienoates as pheromones. The evidence that some pentatomids exploit the pheromones of other true bugs as kairomones to find food or to congregate as a passive defense against tachinid parasitism is discussed.     

2007～2008年世界塑料工业进展

收集了2007年7月～2008年6月世界塑料工业的相关资料,介绍了2007～2008年国外塑料工业的发展情况,提供了世界塑料产量、消费量及全球各类树脂的需求量及产能情况.按通用热塑性树脂(聚乙烯、聚丙烯、聚苯乙烯、聚氯乙烯、ABS树脂)、工程塑料(尼龙、聚碳酸酯、聚甲醛、热塑性聚酯、聚苯醚)、特种工程塑料(聚苯·硫醚、液晶聚合物、聚醚醚酮)、通用热固性树脂(酚醛、聚氨酯、不饱和聚酯树脂、环氧树脂)不同品种的顺序,对树脂的产量、消费量、供需状况及合成工艺、产品应用开发、树脂品种的延伸及应用的进一步扩展等技术作了详细介绍.     

2005～2006年国外塑料工业进展

收集了2005年7月～2006年6月国外塑料工业的相关资料，介绍了2005—2006年国外塑料工业的发展情况。提供了世界塑料产量、消费量及全球各类树脂生产量以及各国塑料制品的进出口情况。作为对比，介绍了中国塑料的生产情况。按通用热塑性树脂（聚乙烯、聚丙烯、聚苯乙烯、聚氯乙烯、ABS树脂）、工程塑料（聚酰胺、聚碳酸酯、聚甲醛、热塑性聚酯、聚苯醚）、通用热固性树脂（酚醛、聚氨酯、不饱和树脂、环氧树脂）、特种工程塑料（聚苯硫醚、液晶聚合物、聚醚醚酮）的品种顺序，对树脂的产量、消费量、供需状况及合成工艺、产品开发、树脂品种的延伸及应用的扩展作了详细的介绍。     

Inorganic/organic nanocomposite coatings: The next step in coating performance

Inorganic/organic hybrid materials have considerable promise and are beginning to become a major area of research for many coating usages, including abrasion and corrosion resistance. Our primary approach is to prepare the inorganic phase in situ within the film formation process of the organic phase. The inorganic phase is introduced via sol-gel chemistry into a thermosetting organic phase. By this method, the size, periodicity, spatial positioning, and density of the inorganic phase can be controlled. An important aspect of the inorganic/organic hybrid materials is the coupling agent. The initial task of the coupling agent is to provide uniform mixing of the oligomeric organic phase with the sol-gel precursors, which are otherwise immiscible. UV-curable inorganic/organic hybrid systems have the advantages of a rapid cure and the ability to be used on heat sensitive substrates such as molded plastics. Also, it is possible to have better control of the growth of the inorganic phase using UV curing. It is our ultimate goal to completely separate the curing of inorganic and organic phases to gain complete control over the morphology, and hence optimization of “all” the coating properties. Thus far, it has been found that concomitant UV curing of the inorganic and organic phases using titanium sol-gel precursors afforded nanocomposite coatings which completely block the substrate from UV light while maintaining a transparent to visible light. Also, it has been found that the morphology of the inorganic phase is highly dependent on the concentration and reactivity of the coupling agent. Presented at the 82nd Annual Meeting of the Federation of Societies for Coatings Technology, October 27–29, 2004, in Chicago, IL.