ABR处理农村生活污水填料选择的研究

采用厌氧折流板反应器(ABR)处理农村生活污水,并选择出适合农村生活污水处理的ABR填料。以立体弹性填料、纤维球填料和鲍尔环填料作为ABR填料,以无填料ABR为对照实验装置,考察了填料对ABR处理效果和生物相的影响,并对各填料ABR工程造价进行了分析。研究结果表明:装填立体弹性填料、纤维球填料和鲍尔环填料后,ABR对COD、SCOD和SS的去除率均有一定程度的提高;装填填料ABR中微生物种类和数量均多于无填料ABR;立体弹性填料的造价分别约为纤维球填料和鲍尔环填料的1/8和1/15。因此,立体弹性填料最适合作为ABR处理农村生活污水用填料,装置稳定后,出水COD、SCOD和SS的平均浓度分别为87.42、49.61和13.20 mg/L,平均去除率分别为59.04%、60.05%和84.12%。     

城市雨水径流多填料优化组合快速渗蓄试验研究

通过雨水径流渗蓄处理系统的填料筛选及多填料分层组合渗蓄处理径流的效能试验,分析了陶粒、稀土瓷砂、沸石、石英砂对城市雨水径流主要污染物COD及重金属Pb、Zn的吸附性能,研究了多填料优化组合快速渗蓄系统对径流污染物的处理效能。结果表明:陶粒、稀土瓷砂、沸石较石英砂具有更好的径流有机物及重金属污染物的吸附、离子交换等性能。将陶粒、稀土瓷砂、沸石组合作为径流渗蓄池的填料,3种填料各填装一层,每层厚度均为30 cm,则自上而下填料不同的填装组合方式,会导致径流渗蓄处理的效果有明显差异。渗蓄池填料自上而下的最佳分层组合为陶粒-稀土瓷砂-沸石,此时,径流COD、SS的渗蓄去除率分别高达94.82%、97.82%,对Pb、Zn的去除效率分别达到81.05%、75.64%,处理出水的COD约为50mg/L、SS约为25 mg/L、Pb、Zn浓度均约为0.13mg/L。对城市雨水径流的处理,该多填料优化组合快速渗蓄池较传统石英砂快滤池更高效。     

导热填料对HDPE/石蜡定形相变材料性能的影响

采用熔融共混技术,在高密度聚乙烯（HDPE）/石蜡定形相变材料中添加普通石墨、氧化膨胀石墨、超声膨胀石墨以及膨胀石墨（EG）4种导热填料制备导热定形相变材料（PCM）。SEM图表明导热填料可以与HDPE、石蜡均匀混合。添加导热填料后定形相变材料的渗漏率有增大的趋势,但添加普通石墨和超声膨胀石墨时,渗漏率随导热填料含量的增加而增加,添加氧化膨胀石墨和EG时,PCM的渗漏率随导热填料含量的增加而降低。定形相变材料中添加导热填料时其热导率有显著提高。添加EG时,定形相变材料的热导率提高最多,提高率达144.7%。     

Effects of various fillers on sintering,microstructures and properties of Ca-Ba-Al-B-Si-O glass/ceramic composites简

Low-temperature sintering and properties of LTCC （low temperature co-fired ceramics） materials based on CaO-BaO-Al2O3-B2O3-SiO2 glass and various fillers such as Al2O3, silica glass, christobalite, AlN, ZrO2, MgO-SiO2, TiO2 were investigated. The results show that densification, crystallization, microstructures and dielectric properties of the composites are found to strongly depend on the type of filler. The densification process of glass/ceramic composites with various fillers is mainly from 600 ℃ to 925 ℃, and the initial compacting temperature of samples is 600 ℃. The initial rapid densification of samples starts at its glass softening temperature. LTCC compositions containing Al2O3, silica glass, AlN and MgO-SiO2 fillers start to have the crystallization peaks at 890, 903, 869 and 844 ℃, respectively. The crystallization peaks are believed as correlated to the crystallization of CaAl2SiO8, β-SiO2, Ca2Al2SiO7 and β-SiO2. The composite ceramic with Al2O3, silica glass and TiO2 ceramic have a better dense structure and better smooth fracture surface. Sample for Al2O3 has the lowest dielectric loss tanδ value of 0.00091, whereas the sample for MgO.SiO, has the highest dielectric loss tanδ value of 0.02576. The sample for TiO2 has the highest dielectric constant value of 14.46, whereas the sample for AIN has the lowest dielectric constant value of 4.61.     

一类非线性微分差分方程整函数解

选取炭黑、谷壳灰、绢云母、蒙脱土、凹凸棒石和硅灰石等6种不同形态的无机填料,采用液态成型工艺,制备了无机填料／丁腈橡胶硫化胶,研究了无机填料对丁腈橡胶的力学性能、交联密度、耐燃料B性、耐油性、耐热老化性和微观形貌等特性的影响。结果表明：加入炭黑后,硫化胶的综合性能最佳;加入蒙脱土后,硫化胶的交联密度增至2．49×10^-4mol/cm3,三维交联程度增幅最大;加入凹凸棒石后,硫化胶在燃料B中质量变化率、体积变化率降至同比最低,对耐燃料B性能改善幅度最大;加入硅灰石后,硫化胶在油性环境中的质量、体积变化率、硬度变化最小,对耐油性改善最多;加入绢云母后,硫化胶在热空气氛围下质量变化率、体积变化率和硬度变化同比最小,对耐热老化性能改善幅度最大。     

Impact of sand and filler materials on the hydration behavior of calcium aluminate cement

In earlier work, we have observed discrepancies relating to the early hydration of calcium aluminate cement (CAC) when comparing data from heat flow calorimetry of CAC paste with results from mortar strength tests using the crushing method. Here, we investigated on this phenomenon and found that the sand which is used as a filler exerts a major influence on CAC hydration resulting in acceleration. Furthermore, in particular fine filler materials such as, for example, microsilica, fine limestone powder, and especially α- and γ-Al₂O₃ also produced a strong hydration accelerating effect which is dependent on their specific surface area. The mechanism underlying the acceleration is that under alkaline conditions their negative surface charge attracts calcium ions as was confirmed via inductively coupled plasma atomic emission measurements. Such a layer generates favourable conditions for the nucleation of CAC hydration products (C-A-H phases). The resulting crystalline hydrates which form on the surface of the filler particles submerged in CAC cement pore solution were visualized via SEM imaging. This way, specifically selected fillers can significantly accelerate CAC hydration and save precious lithium salts which are commonly used to boost the early strength of CAC.     

液相法制备棒状Al2O3及Al2O3-ZrO2陶瓷复合粉体

采用二乙三胺五乙酸（DTPA）为配合剂,以简易的液相法合成出微纳米纤维状Al和Al-Zr前体,煅烧处理制备了棒状α-Al₂O₃和Al₂O₃-ZrO₂复合陶瓷粉体。同时研究了DPTA∶Al³⁺质量比、反应温度与时间对陶瓷粉体形态的影响。利用X射线衍射（XRD）、热分析（TG/DSC）以及扫描电子显微镜（SEM）对粉体进行了表征。结果表明：较高的DTPA∶Al³⁺质量比以及较长的反应时间有利于制备高长径比的纤维棒状Al和Al-Zr配合物前体。合成纳米纤维状α-Al₂O₃和Al₂O₃-ZrO₂前体的最优条件是反应温度60℃,反应时间5.5h,DTPA∶Al³⁺比例为1.2∶1。相应地,该前体煅烧后可以制备出棒状α-Al₂O₃和Al₂O₃-ZrO₂复合陶瓷粉体。     

直流电弧等离子体法制备超细Ag粉研究

采用自行研制的高真空双枪直流电弧金属纳米粉连续制备设备,制备了高纯度的超细银粉,并采用正交试验的方法研究了各工艺参数对粉体产率及粒径分布的影响。利用X射线衍射（XRD）、透射电子显微镜（TEM）和相应选区电子衍射（SAED）以及Simple PCI软件对样品的成分、形貌、晶体结构和粒径分布进行了分析。结果表明：所得银粉纯净无污染,属多晶型结构,平均粒径在38-220nm范围内,粒径分布窄;最大产率比同类研究结果提高了近17倍;电流和充气压力分别是影响产率和粒径分布的显著性因素。     

Electroless coating of Permalloy powder and DC-resistivity of alloy composites

A high-resistivity coating of Permalloy (Ni–17.81Fe–1.97Mo wt.%) powders for soft magnetic composites, SMC, was developed and characterized. The coating was made using the electroless plating method employing an aqueous solution of sodium and nickel phosphates. The chemical process led to the formation of a layer up to 1 μm thick deposited on each particle surface and composed of a mixture of Ni(OH)₂, P₂O₅ and NaPO₃ compounds, as shown by X-ray photoelectron spectrometry and X-ray powder diffraction studies. The effect of coating on electrical DC resistivity was evaluated on SMC obtained mixing the metal, coated or uncoated, and thermoplastic polymer PEEK (polyetheretherketone) powders, pressing the mixture at 800 MPa and heating in air up to melting the polymer (380–410 °C). The SMC made with coated powders showed an increase in resistivity of more than two orders of magnitude compared to that obtained with uncoated powders when the polymer ranged between 0.5 and 1.5 wt.%. This difference prevails in comparison with sintered materials processed at the same pressure and sintering in hydrogen at 1350 °C. Thus, this process would restrict the eddy currents which affect the performance of soft magnetic products for AC applications.     

填料粒子成型对泡沫铝合金孔结构的影响

在实验的基础上 ,绘制出填料粒子成型时的体积与泡沫铝合金的孔隙率相对应的变化曲线 ,并应用力学的基本原理对泡沫铝合金孔结构的成形机理进行了研究。确定填料粒子成型时的体积变化应在 0 %～ 12 %之间 (此时泡沫铝合金的孔隙率应在 41.6 %～ 47.6 %之间 ) ,才能稳定填料粒子尺寸 ,从而更好地控制泡沫铝合金的孔径尺寸 ,提高成型质量 ,稳定泡沫铝合金的使用性能。