Supersonic jet spectroscopy of naphthalene–fluorene bichromophoric cluster

We have investigated the supersonic jet spectroscopy and photophysics of 1-methylnaphthalene–fluorene (1MN–FL) cluster, and looked for indications of intramolecular electronic energy transfer (Intra-EET) from the FL (donor, D) to 1MN (acceptor, A). The clusters were identified by their time of flight (TOF) mass spectra. We observed clusters bands in the LIF spectrum near the region of 1MN origin. We have also observed cluster TOF–resonance enhanced multi-photon ionization (REMPI) spectrum near the electronic origin of the fluorene moiety. However, this spectrum was almost independent of the excitation wavelength, and was not observed in the LIF spectrum. This is probably due to fast Intra-EET resulting in lifetime broadening of the donor chromophore cluster spectrum, similar to that observed previously for the naphthalene–anthracene bichromophoric system.     

The use of TG-FTIR technique for the assessment of hydrogen bromide emissions in the combustion of BFRs

The TG-FTIR technique was used in the present study to investigate the thermal degradation behaviour of materials containing brominated flame retardants under fire conditions. Time-temperature profiles and oxygen concentrations typical of selected fire scenarios were reproduced in the thermogravimetric analyzer, while the characterization of the gaseous products generated was performed by the simultaneous FTIR analysis. FTIR analysis combined with the use of specific calibration procedures allowed the quantitative estimation of the gaseous products evolved as a function of experimental conditions. The results obtained allowed the straightforward assessment and the comparison of the quantities of hydrogen bromide formed in the oxidation and thermal degradation of pure brominated flame retardants and of flame retarded materials of industrial interest. Hydrogen bromide yields resulted dependent on the experimental conditions used, such as oxygen concentration and heating rate. Although TG-FTIR experiments only provide a representation of the actual heterogeneous combustion products in real fire conditions, the coupled TG-FTIR technique proved to be a straightforward experimental methodology allowing one to obtain reference data on the nature and quantities of the macropollutants generated in a fire. This revised version was published online in July 2006 with corrections to the Cover Date.     

Trace level analysis of volatile and semi-volatile organic compounds in water using a membrane/jet separator interfaced to an ion trap mass spectrometer

An ion trap mass spectrometer, equipped with a membrane/jet separator interface, is used for the direct detection of volatile and semi-volatile organic compounds in aqueous solutions. Aqueous sample is passed through a capillary membrane, the outside surface of which is continuously purged by helium. The permeate is pneumatically transported to the mass spectrometer via a jet separator which acts as an additional enrichment device. The performance and response characteristics of non-porous silicone and microporous polytetrafluoroethylene (PTFE) membranes are studied. The microporous membrane allows sufficient water to pass for it to be used as a reagent gas for chemical ionization. Both types of membranes provide detection limits in the parts per trillion (pptr) to parts per billion (ppb) range with a linear dynamic range of 3 orders of magnitude for some volatile organic compounds. Results show that there is no detectable matrix effect on response in the selected cases examined. The use of microporous membranes to analyze more polar compounds, such as 5-hydroxymethyl furfuraldehyde and lactic acid, is also demonstrated. The effects of other experimental parameters, such as membrane temperature and length, on sensitivity are also investigated.     

负荷度对盾构隧道管片火灾下力学性能影响

针对不同边界条件下的地铁管片建立了热力耦合数值模型,采用顺序耦合热-应力分析方法对不同负荷度下衬砌管片在高温下的变形及内力进行了分析,并基于火灾试验数据进行了验证。研究表明,负荷度是影响管片在火灾高温下变形特性的关键因素。负荷度越大,管片跨中位移在升温阶段发展越充分,下缘混凝土的极限压应力越小。支座边界条件不同时,衬砌管片变形受高温影响的程度也不相同。当衬砌管片两端的水平位移被约束时,由于在升温过程中衬砌管片产生不可忽略的变形,支座反力先增大后减小,最后持续增大直至升温结束。     

钢管混凝土组合柱耐火性能对比分析

采用非线性有限元软件ABAQUS对方钢管混凝土柱、复式钢管混凝土柱、内嵌十字型钢钢管混凝土柱和4腔钢管混凝土柱4种钢管混凝土组合柱开展火灾下的力学分析,并采用相关实验数据进行验证.分析不同荷载比下钢管混凝土组合柱的温度场、位移-时间曲线、截面内力重分布等.结果表明：内嵌型钢(钢管)有助于提升柱体的轴向刚度,钢管混凝土组合柱的破坏模态表现为压缩鼓曲破坏;低荷载比下内嵌钢管允许方钢管发生更高的温度材性劣化,进而提升了柱体的耐火性能,火灾荷载比越小,提升效果越显著.     

论明清石湾陶艺的美学特色

明清是石湾陶艺创作风格、艺术特色的奠基时期。明清石湾陶艺注重表现,富有生活气息,简约质朴,豪放自然,尤其在人物眼神与衣纹的刻划、“素胎烧制”等艺术表现技巧方面所作出的探索,终经后来历代艺人的发扬光大,已成为今天石湾陶艺所特有的“有意味的形式”,并展示出强烈的艺术魅力。     

镁合金表面热喷涂WC-10Co-4Cr粒子沉积及分布特性

为了探究高速空气燃料热喷涂（AC-HVAF）过程中喷涂粒子撞击基材后的沉积特性。采用AC-HVAF热喷涂技术在AZ80镁合金基体上沉积WC-10Co-4Cr硬质涂层。通过离散沉积实验获得薄层沉积粒子,探讨各种沉积形貌的种类、形成原因、结合机制及射流中粒子的径向和轴向分布。结果表明：在AC-HVAF粒子沉积过程中,嵌入型沉积为主要的沉积形貌,同时包含少量的破碎型与空腔型沉积粒子。在涂层的形成过程中,嵌入型沉积对涂层/基体结合性能起重要作用;空腔型沉积的小颗粒及破碎型沉积的大颗粒是造成沉积效率下降的主要原因。喷涂粒子主要集中在射流中心,越靠近射流边缘,空腔型沉积粒子越多,最终导致AC-HVAF粒子射流呈现出空间分布特征。     

垂直弹射系统弹射初始阶段内流场数值分析

针对燃气活塞弹射装置在垂直发射系统中的应用,采用计算流体软件Fluent的源项法,用UDF(用户自定义函数)编译来实现火药燃气的质量、动量、能量向高压室的注入,对弹射初始阶段高压室和低压室内燃气流场进行了数值分析,得出以下结论:高压室压力在破膜前快速上升,破膜后缓慢上升的趋势,在高压上下两端压力应力集中,低压室呈中间和两端压力应力集中现象,同时高压室形成的低速燃气经导管产生激波形成超声速燃气流撞击低压室,并分析了压力和速度对弹射装置的影响。计算结果表明,该方法能够较好地仿真弹射装置燃气流场的特性,为弹射装置优化设计和装药设计提供理论依据。     

玻璃池窑的计算机辅助设计 I.燃油蓄热室流液洞马蹄焰玻璃池窑

用理论和实践经验相结合的方法,采用ＢｏｒｌａｄｎＣ＋＋语言设计了一个燃油蓄热室流液洞马蹄焰玻璃池窑,用ＡｕｔｏＣＡＤ１２．０版软件包绘制了三张窑炉图（平面图、横剖面图、纵剖面图）。     

空化水射流研究现状及其应用

综述了高压水射流技术发展及应用过程,认为空化水射流是一种富有发展前途的高效新型射流．通过对空化水射流机理、空化数和冲击压力两个重要空化参数的分析,显示了空化射流的潜在优势．实验表明人工淹没空化射流具有较强的冲蚀效果,并克服了靶距范围的不足．简要介绍了该技术应用于火箭发动机内脏固体推进剂清洗工程的射流系统设计．