制备生物航煤山苍子果核油预处理工艺

山苍子果核油主要成分为月桂酸等,碳原子数主要分布于8~16,目前仅用于制备烷醇酰胺等低端产品,却是生物航煤的优良原料之一.通过双氧水脱色、复合吸附脱色及酶法脱胶等对山苍子果核油原料油进行预处理及参数最优化设计,脱色率可以达到 97.33%,磷脂含量由1.036 mg/g降低为0.036 mg/g.并确定双氧水脱色的最优实验参数为双氧水加入量15%,反应时间80 min,反应温度110℃;活性炭/改性活性白土复合吸附最优实验参数为活性炭用量W₁与改性活性白土用量W₂重量比W₁/W₂=1/15,反应时间40 min,反应温度80℃,吸附剂加入量4%;酶法脱胶最优实验参数为加酶量40 mg/kg,pH5.1,反应时间 2.5 h,反应温度48℃.该方法成本低、简单易行、原料油损耗率低,对山苍子果核油成分及性质影响较小,满足后续加氢实验要求,为得到高转化率生物航煤奠定了基础.     

溶胶-水热法合成PZT纳米粉体及性能研究

结合溶胶-凝胶和水热法的优点,采用改进的溶胶-水热复合法在较低温下制备出纯相PZT纳米粉体,并对粉体的烧结性能进行了研究,分别讨论了烧结温度、保温时间等工艺参数对烧结陶瓷密度、微观结构和压电性能的影响.270℃保温热处理2h可合成出粒径约为20~30nm,具有良好分散性的钙钛矿型PZT纳米粉体,且具有良好的烧结活性.在1150℃烧结保温2h,压电性能达到最优(机电耦合系数: 0.50,机械品质因数: 410,压电常数: 220pC/N,介电常数: 1060).结果表明,溶胶水热复合法具有合成温度低、组分易于控制、粉体烧结活性高的优点.      

水基有机硅憎水剂对A3钢憎水处理的应用

以市售聚硅氧烷乳液为基料,辅以金属盐催化剂和醇胺类改性植酸水溶性缓蚀剂制备的水溶性有机硅憎水剂,用以处理A3钢磷化试样表面.考察了催化剂质量分数、植酸质量分数、植酸溶液的pH值、乳液与改性植酸的比率对憎水剂憎水处理效果及稳定性的影响;探讨了不同热处理温度、浸渍时间及热处理时间等工艺条件下憎水剂对金属表面憎水性的影响并确定了憎水剂配方和憎水处理工艺.结果表明,用该憎水剂处理的A3钢磷化试样接触角可达132°左右,A3钢磷化处理表面的耐腐蚀性能得到明显改善.      

空心微珠用于环氧树脂抗原子氧剥蚀试验研究

提出一种新的航天器用树脂基材料抗原子氧剥蚀的方法,即在航天器用树脂基材料中添加与原子氧不反应的超细颗粒材料,用于提高其抗原子氧剥蚀的性能.在制备出超细空心微珠颗粒增强的环氧树脂复合材料的基础上通过原子氧暴露实验,发现空心微珠的加入可以有效地提高环氧树脂抗原子氧剥蚀的性能.同时,空心微珠的表面性态对制备的复合材料抗原子氧剥蚀性能具有重要的影响,经过表面改性处理可以进一步提高复合材料抗原子氧剥蚀的性能.      

基于乙炔基封端酰亚胺和氰酸酯树脂的互穿网络聚合物

以2，3，3'，4'-联苯四甲酸二酐和2，2'-双三氟甲基-4，4'-联苯二胺为单体、4-乙炔基邻苯二甲酸酐为封端剂合成了不同聚合度的聚酰亚胺低聚物（BETI），将其溶于双氛A型氰酸酯单体制备了改性氰酸酯树脂，对改性氰酸酯树脂的固化行为进行了详细探究，并对其固化物的热学性能、力学性能和介电性能等进行了表征与分析。结果表明:BETI对氰酸酯树脂的聚合有明显的催化作用，可以降低固化温度，缩短凝胶时间。基于BETI和氰酸酯树脂的互穿网络聚合物（IPN）的热性能和力学性能与纯氰酸酯树脂相比都有一定的提高。当加入质量分数30%、聚合度为19的BETI树脂时，固化物的玻璃化转变温度从297 ℃提高到309 ℃，热失重5%时温度从425 ℃提高到了431 ℃；拉伸强度从76 MPa提高到了94 MPa，冲击强度从24 kJ/m2℃提高到了31 kJ/m2。加入BETI后，聚合物的介电常数稍稍高于纯氰酸酯树脂。由于具有良好工艺性和材料性能，BETI改性氰酸酯树脂可作为基体树脂应用于航空航天等领域。      

等离子体处理对非晶态合金镀层表面改性研究

通过微波等离子体处理方法对Ni-W、Ni-W-B非晶态合金镀层表面进行改性的研究,测量了表面改性对非晶态镀层耐蚀性、表面成分及结构的影响.结果表明,经过微波等离子体处理过的Ni-W、Ni-W-B非晶态合金镀层,提高了在H₂SO₄、HNO₃溶液中的耐蚀性以及在700℃环境下的抗氧化性能;微波等离子体处理过的非晶态合金镀层表面含W量和含O量相对提高了;镀层结构仍然是非晶态.     

改性聚酰亚胺复合材料的电导机理分析

首先,选用半导电的微米级和纳米级改性剂粉料对玻璃布补强聚酰亚胺基复合材料进行改性.共制备了5种试样,其中包括4种使用无碱玻璃布补强的聚酰亚胺试样,分别是未改性、纳米改性、微米改性和微/纳米改性和一种使用微碱玻璃布补强的试样.其次,研究改性剂粒径和玻璃布含碱量对复合材料介电性能及电导率特性的影响.试验结果表明改性剂粒径对复合材料的介电性能影响不显著,但是微米粒径的改性剂能显著提高复合材料的体电导率并赋予复合材料一定的非线性电导率特性,而纳米粒径的改性剂会小量地降低复合材料的电导率.与无碱玻璃布补强的试样相比,采用微碱玻璃布改性和补强的复合材料试样有较高的非线性电导阈值电场.      

纤维增强熔模铸造复合型壳的性能及断口形貌

为提高熔模铸造硅溶胶型壳的强度性能,采用天然植物/硅酸铝双纤维来增强熔模铸造型壳.将质量比为1:1天然植物/硅酸铝双纤维加入到制壳用涂料中来制备型壳试样,对不同纤维加入量条件下所获得的纤维增强型壳试样的常温强度、不同温度焙烧后的抗弯强度及高温自重变形量的变化规律进行了研究,并利用SEM观察型壳试样断口形貌.结果表明,当纤维加入量从0.2%逐渐增加到1.0%时,其常温抗弯强度先增加后减小;纤维加入量为0.6%时其常温抗弯强度值达到2.94 MPa.高温自重变形量则先减小后增大.加入0.6%纤维的增强型壳试样经900℃焙烧后,其抗弯强度达4.04 MPa,与未采用纤维增强的型壳试样的抗弯强度接近.断口形貌观察结果表明,纤维增强硅溶胶型壳试样受力破坏失效主要由于硅溶胶凝胶膜的断裂、硅酸铝纤维拔出、断裂及脱粘等综合作用所致.     

密闭空间内氢气和二氧化碳甲醇化系统的非均相模型及反应特性

在载人密闭空间内通过电解水方式为乘员供氧会产生副产物氢气（H₂）。此外,乘员还呼出二氧化碳（CO₂）。将H₂和CO₂催化合成甲醇（CH₃OH）是消除载人密闭空间内富余H₂和CO₂的最优方式之一。对其开展反应过程建模及反应特性研究有助于进行反应过程的控制,更好地维持载人密闭空间内的大气平衡。本文采用微元法建立了H₂和CO₂催化合成甲醇的物料计算模型和温度一维非均相模型,研究了不同反应压力、冷却介质温度以及入口反应气体中CO₂与CO比值等反应条件下的反应特性变化规律。结果显示,反应压力的增加、冷却介质的温升以及入口气体中CO₂与CO比值的减小均能促进各反应速率增加,进而使得H₂和CO₂消除量增加、甲醇合成率上升以及催化剂和反应气体最高温度上升。在保证反应速率增加且催化剂最高温度不超过合理反应温度区间的最大值573.15 K时需维持反应压力不大于8 MPa,冷却介质温度不高于538.15 K以及CO₂与CO比值不小于1。      

激光快速熔凝Al2O3/YAG共晶陶瓷的制备与组织

采用激光快速熔凝技术制备Al₂O₃/YAG共晶自生复合陶瓷, 研究Al₂O₃/YAG共晶陶瓷在高能激光束作用下,不同扫描速率(0.01~2.0mm/s)、超高温度梯度下的凝固组织特征及其生长机制,探索激光熔凝过程控制参数与凝固组织的关系.研究结果表明:激光熔凝Al₂O₃/YAG共晶陶瓷由无规则连续分布的Al₂O₃相和YAG相两相组成,没有晶界和其他相,Al₂O₃相的体积分数为(45.0±2.0)%,两相耦合生长,交错分布,是典型的快速凝固层片状非规则共晶组织;共晶层间距细密, 并随激光扫描速度的增大而减小,扫描速度为0.02mm/s 时,共晶间距约为1~2μm,扫描速度为2.0mm/s时,共晶间距仅为0.5μm左右;综合热分析表明,Al₂O₃/YAG共晶熔点为2096K,与相图吻合.     

Plasma chemical reactions in C2H2/N2, C2H4/N2, and C2H6/N2 gas mixtures of a laboratory dielectric barrier discharge

Plasma chemical reactions in C₂H₂/N₂, C₂H₄/N₂, and C₂H₆/N₂ gas mixtures have been studied by means of mass spectrometry at a medium pressure of 300 mbar in a laboratory dielectric barrier discharge. A major reaction scheme is production of larger hydrocarbons like C_nH_m with n up to 12 including formation of functional CN groups.     

Mesospheric H2O and H2O2 densities inferred from in situ positive ion composition measurement

The measurements of positive ion composition in the high latitude D-region have revealed an excess of 34⁺ under distrubed conditions which has been interpreted as H₂O₂⁺. At the same altitude range near the transition height oxonium ions were measured as well. This paper presents a new model for the production and loss of oxonium ions with their production from H₂O₂⁺ + H₂O → H₃O⁺ + HO₂ and their loss by attachment of N₂ and/or CO₂. A reaction constant of 8.5×10^?28 (300/T)⁴ cm⁶s^?1 has been obtained for the three body attachment H₃O⁺ + CO₂ + M → H₃O⁺.CO₂ + M from the measured density profile of 63⁺ in flight 18.1020. Mesospheric H₂O and H₂O₂ densities are inferred from measurements of four high latitude ion compositions based on the oxonium model. The mixing ratios of hydrogen peroxide are up to two orders of magnitude higher compared to previous model calculations. In order to explain the missing production of odd hydrogen, we consider larger O(¹D) densities, surface reactions of O(³P) on particles, and cathalytic photodissociation of water vapor on aerosol particles.     

Annealing of Hg2Cl2 crystals — Project of the experiment

The creep of polycrystalline Hg₂X₂ (where X = Cl, Br, J) under the terrestrial and space conditions is studied in the present experiment. The authors suppose that the creep of the Hg₂X₂ cylindrical sample can be studied by the help of the theory of micropolar (non-Newtonian) fluids. In accordance with this theory we obtain the flux of fluid through any cross-section as functions of the radius, viscosity coefficients, the gradient of pressure and the gravity acceleration. In this paper a comparison of the theoretical results for normal and zero- gravity conditions is given. It is shown that the annealing of materials having a broad region of plasticity under microgravity conditions can lead to great improvement in optical as well as mechanical qualities of the crystal. Technical aspects of the experiment are also described.     

富氢/富氧燃气同轴直流喷嘴燃烧过程数值模拟

为研究全流量补燃FFSC(Full Flow Staged Combustion)循环发动机气-气喷注器性能,以气氢/气氧(GH2/GO2)预燃室提供的758K富氢燃气和676K富氧燃气为推进剂对同轴直流喷嘴燃烧流场进行了数值模拟.考察了相同燃烧室结构、流量、入口燃气温度条件下,富氧燃气压降、富氢燃气和富氧燃气的速度比、氧喷嘴厚度和氧喷嘴缩进变化对燃烧性能的影响,获得了4个参数的影响规律.数值模拟结果对燃气气-气喷注器结构设计有参考价值.     

含SiO2,ZrO2微粒复合镀镍层抗高温氧化性能

通过对含有SiO₂,ZrO₂微粒复合电沉积的研究,在Cu合金表面分别获得了含量(原子数分数)为11.3％ SiO₂,5.31％ ZrO₂微粒的Ni基复合镀层.通过在800℃、900℃条件下的高温氧化和热震循环试验,研究了这种复合镀镍层的高温氧化性能和界面结合特性.结果表明:经过40?h的高温氧化,2种复合镀镍层的抗氧化性能均达到抗氧化级,而且含SiO₂微粒的复合镀镍层的抗氧化性能优于含ZrO₂微粒的复合镀镍层;经过55次冷热循环,含SiO₂微粒的复合镀镍层与铜基体结合良好.     

A feasibility study for the detection of the diurnal variation of tropospheric NO2 over Tokyo from a geostationary orbit

We have conducted a feasibility study for the geostationary monitoring of the diurnal variation of tropospheric NO₂ over Tokyo. Using NO₂ fields from a chemical transport model, synthetic spectra were created by a radiative transfer model, SCIATRAN, for summer and winter cases. We then performed a Differential Optical Absorption Spectroscopy (DOAS) analysis to retrieve NO₂ slant column densities (SCDs), and after converting SCDs into vertical column densities (VCDs), we estimated the precision of the retrieved VCDs. The simulation showed that signal-to-noise ratio (SNR) ? 500 is needed to detect the diurnal variation and that SNR ? 1000 is needed to observe the local minimum occurring in the early afternoon (LT13–14) in summer. In winter, the detection of the diurnal variation during LT08–15 needs SNR ? 500, and SNR ? 1000 is needed if early morning (LT07) and early evening (LT16) are included. The currently discussed sensor specification for the Japanese geostationary satellite project, GMAP-Asia, which has a horizontal resolution of 10 km and a temporal resolution of 1hr, has demonstrated the performance of a precision of several percent, which is approximately corresponding to SNR = 1000–2000 during daytime and SNR ? 500 in the morning and evening. We also discuss possible biases caused by the temperature dependence of the absorption cross section utilized in the DOAS retrieval, and the effect of uncertainties of surface albedo and clouds on the estimation of precisions.     

Satellite measurements of atmospheric composition: Three years' observations of CH4 and N2O

The stratospheric and mesospheric sounder (SAMS) was launched in October 1978 on the NIMBUS 7 satellite. Between then and its eventual failure in June 1983 the instrument was used to collect over four years of radiance data from which atmospheric temperature and the abundances of a number of minor constituents have been derived. The paper will present fields of CH₄ and N₂O between 50S and 70N derived from SAMS data for the period 1979–1981. Global distributions of CH₄ and N₂O will be presented in various forms and the observed seasonal changes and interannual variability will be described. The paper will compare the SAMS CH₄ and N₂O data with model predictions and will comment upon some other areas of interest.     

Pressure,O2, and CO2, in aquatic Closed Ecological Systems

Pressure increased during net photosynthetic O₂ production in the light and decreased during respiratory O₂ uptake during the dark in aquatic Closed Ecological Systems (CESs) with small head gas volumes. Because most CO₂ will be in the liquid phase as bicarbonate and carbonate anions, and CO₂ is more soluble than O₂, volumes of gaseous CO₂ and gaseous O₂ will not change in a compensatory manner, leading to the development of pressure. Pressure increases were greatest with nutrient rich medium with NaHCO₃ as the carbon source. With more dilute media, pressure was greatest with NaHCO₃, and less with cellulose or no-added carbon. Without adequate turbulence, pressure measurements lagged dissolved O₂ concentrations by several hours and dark respiration would have been especially underestimated in our systems (250–1000 ml). With adequate turbulence (rotary shaker), pressure measurements and dissolved O₂ concentrations generally agreed during lights on/off cycles, but O₂ measurements provided more detail. At 20 °C, 29.9 times as much O₂ will distribute into the gas phase as in the liquid, per unit volume, as a result of the limited solubility of O₂ in water and according to Henry’s Law. Thus even a small head gas volume can contain more O₂ than a larger volume of water. When both dissolved and gaseous O₂ and CO₂ are summed, the changes in Total O₂ and CO₂ are in relatively close agreement when NaHCO₃ is the carbon source. These findings disprove an assumption made in some of Taub’s earlier research that aquatic CESs would remain at approximately atmospheric pressure because approximately equal molar quantities of O₂ and CO₂ would exchange during photosynthesis and respiration; this assumption neglected the distribution of O₂ between water and gas phases. High pressures can occur when NaHCO₃ is the carbon source in nutrient rich media and if head-gas volumes are small relative to the liquid volume; e.g., one “worse case” condition developed 800 mm Hg above atmospheric pressure and broke the glass container. Plastic screw cap closures are likely to leak at high pressures and should not be assumed to seal unless tested at appropriate pressures. Pressure can be reduced by having larger head-gas volumes and using less concentrated nutrient solutions. It is important that pressure changes be considered for both safety and closure, and if total O₂ is used as the measure of net photosynthesis and respiration, the O₂ in the gas phase must be added to the dissolved O₂.