Self-repairing Al_(2)O_(3)-TiO_(2)coatings fabricated through plasma electrolytic oxidation with various cathodic pulse parameters

The influence of cathodic pulse parameters was evaluated on plasma electrolytic oxidation(PEO)coatings grown on 7075 aluminum alloy in a silicate-based electrolyte containing potassium titanyl oxalate(PTO)using pulsed bipolar waveforms with various cathodic duty cycles and cathodic current densities.The coatings were characterized by SEM,EDS,and XRD.EIS was applied to investigate the electrochemical properties.It was observed that the increase of cathodic duty cycle and cathodic current density from 20%and 6 A/dm^(2) to 40%and 12 A/dm^(2) enhances the growth rate of the inner layer from 0.22 to 0.75μm/min.Adding PTO into the bath showed a fortifying effect on influence of the cathodic pulse and the mentioned change of cathodic pulse parameters,resulting in an increase of the inner layer growth rate from 0.25 to 1.10μm/min.Based on EDS analysis,Si and Ti were incorporated dominantly in the upper parts of the coatings.XRD technique merely detectedγ-Al_(2)O_(3),and there were no detectable peaks related to Ti and Si compounds.However,the EIS results confirmed that the incorporation of Ti^(4+)into alumina changed the electronic properties of the coating.The coatings obtained from the bath containing PTO using the bipolar waveforms with a cathodic duty cycle of 40%and current density values higher than 6 A/dm^(2) showed highly appropriate electrochemical behavior during 240 d of immersion due to an efficient repairing mechanism.Regarding the effects of studied parameters on the coating properties,the roles of cathodic pulse parameters and PTO in the PEO process were highlighted.

Al_(2)O_(3)在储能材料中的应用研究进展

Al_(2)O_(3)作为陶瓷材料、催化剂、催化剂载体及研磨磨料等有广泛的应用。因氧化铝具有优良的抗酸碱腐蚀性和力学等性能且热稳定性好、来源丰富,所以近年来逐渐开始应用在储能材料领域,进一步拓展了氧化铝的应用范围。主要针对氧化铝包覆后的二次储能电池正极材料、负极材料,以及改进隔膜的力学性能等方面进行研究。报道了近年来氧化铝在锂离子电池、钠离子电池、锂硫电池、电解液、隔膜方面的应用研究进展。

Modification of Nano-α-Al2O3 and Its Influence on the Surface Properties of Waterborne Polyurethane Resin Composite Passivation Films

Silane coupling agent KH560 was used to modify the surface of nano-α-Al2O3 in ethanol-aqueous solution with different proportions. The particle size of nano-α-Al2O3 was determined by nano-particle size analyzer, and the effects of nano-α-Al2O3 content, ethanol-aqueous solution ratio and KH560 dosage on the dispersion and particle size of nano-α-Al2O3 were investigated. The material structure before and after modification was determined by Fourier transform infrared spectroscopy (FTIR). Aqueous polyurethane resin and inorganic components are combined with modified nano-α-Al2O3 dispersion to form chromium-free passivation solution. The solution is coated on the galvanized sheet, the adhesion and surface hardness are tested, the bonding strength of the coating and the surface hardness of the substrate are discussed. The corrosion resistance and surface morphology of the matrix were investigated by electrochemical test, neutral salt spray test and scanning electron microscope test. The chromium-free passivation film formed after the modification of nano-α-Al2O3 increases the surface hardness of galvanized sheet by about 85%. The corrosion resistance of the film is better than that of a single polyurethane film. The results show that the surface hardness and corrosion resistance of polyurethane resin composite passivation film are significantly improved by the introduction of nano-α-Al2O3.

纯铜组元对Al_(2)O_(3)弥散强化铜变形性能的影响

为改善Al_(2)O_(3)弥散强化铜的变形性能,通过向弥散强化铜中加入软质相纯铜组元,研究纯铜组元对弥散强化铜烧结坯变形性能的影响。对弥散铜烧结坯进行热压缩变形实验,获得了其不同热变形条件下的真应力应变曲线,建立了基于双曲正弦本构关系Arrhenius流变应力模型的本构方程,并计算获得热激活能值Q与应变速率敏感系数值m;对热挤压试样,进行室温性能检测和微观组织表征。结果表明:加入纯铜组元后,弥散铜烧结坯应力应变曲线峰值应力下降,曲线走势波动减弱,变形试样缺陷减少,热激活能Q降低,变形难度下降。应变速率较低时,纯铜组元的加入使得m值增加,弥散强化铜的塑性变好;应变速率较高时,纯铜组元的加入加剧基体软硬相不协调变形,m值降低,塑性变差。纯铜组元的加入使热挤压弥散铜的强化相浓度降低,硬度下降,导电率提升,晶粒变大。

氮掺杂碳改性Ni/Al2O3催化剂的甲烷干重整反应性能研究

在甲烷干重整反应(DRM)中,常规浸渍法制备的Ni/Al2O3催化剂常因过多积炭导致催化剂失活,因此研究如何提高Ni/Al2O3催化剂的抗积炭能力具有重要意义。通过浸渍法和高温碳化法制备的氮掺杂碳表面修饰的Ni/Al2O3催化剂Ni/Al2O3@NC-3和Ni/Al2O3@NC-5(3和5分别代表多巴胺聚合时间为3 h和5 h)在DRM中表现出了较强的抗积炭性能。使用X射线衍射(XRD)、拉曼(Raman)光谱、X射线光电子能谱(XPS)、热重(TG)和扫描电镜(SEM)等表征手段对催化剂的结构和电性质进行了分析,并探讨了氮掺杂碳的引入对催化剂稳定性和抗积炭性能的影响。XPS结果表明,Ni/Al2O3@NC-3和Ni/Al2O3@NC-5催化剂中金属Ni与氮掺杂碳发生了电子相互作用,形成了催化惰性的Ni+物种,由此减缓了CH_(4)的裂解速率,进而有效地减少了积炭的产生。在经8 h活性测试后,Ni/Al2O3@NC-3催化剂的CH_(4)转化率和CO_(2)转化率分别维持在52.2%和62.3%,且反应后Ni/Al2O3@NC-3催化剂的积炭量仅为7%(质量分数,下同),远远低于Ni/Al2O3催化剂的积炭量(25%)。

直流辉光放电质谱法测定高纯α-Al 2 O 3颗粒中16种杂质元素

采用高纯Ga作为辅助电极,通过考察取样量、放电参数对基体信号强度、信号稳定性、基体和Ga的信号比值的影响,建立了直流辉光放电质谱法(dc-GDMS)测定高纯α-Al_(2)O_(3)颗粒中的Li、Be、Na、Mg等16种杂质元素含量的分析方法。当选取3颗2 mm左右大小的α-Al_(2)O_(3)颗粒用Ga包裹,在1.6 mA/950 V的放电参数下,基体27 Al信号稳定,强度为3.2×10^(8) cps,Al、Ga的信号比约为1∶270。采用实验方法对α-Al_(2)O_(3)颗粒独立测定5次,相对标准偏差均在30%以内。为了验证Ga对α-Al_(2)O_(3)颗粒测定结果的影响,分别采用电感耦合等离子体发射光谱法(ICP-OES)和dc-GDMS法对易于消解的γ-Al_(2)O_(3)粉进行测定。对于dc-GDMS法,选择压在Ga上的γ-Al_(2)O_(3)粉直径约为4~5 mm,在同样的放电参数下,27 Al的信号强度为3.0×10^(9) cps,Al、Ga的信号比约为1∶29。γ-Al_(2)O_(3)粉的GDMS测定结果和ICP-OES基本一致。采用Ga作辅助电极测定α-Al_(2)O_(3)颗粒和γ-Al_(2)O_(3)粉的检出限均可达ng/g。

Al_2O_3-H_2O纳米流体相变蓄冷特性研究

在水介质中悬浮少量的纳米氧化铝颗粒(粒径20nm),通过添加分散剂和超声波振荡,制备成均匀分散的Al2O3-H2O纳米流体。对水和Al2O3-H2O纳米流体的相变蓄冷特性进行了实验比较。结果表明,加入纳米Al2O3可降低水的过冷度,缩短结冰时间;在相同的时间内,纳米流体的蓄冷量要大于纯水。

Al_2O_3-H_2O纳米流体的相变蓄冷实验研究

通过在水介质中添加纳米氧化铝粒子,研制了一种新型传热冷却工质一氧化铝-水纳米流体,粒径分布显示了加入分散剂的悬浮液具有很好的分散性,同时对Al_2O_3-H_2O纳米流体和水溶液的结冰过程进行了实时观察。结果表明,加入Al_2O_3纳米粒子后,流体的结冰速率得到了很大提高,结冰时间大大缩短,DSC测试结果得到0.1%Al_2O_3-H_2O纳米流体的相变潜热值为313.1 J/g。

KF-Al_2O_3催化下3,4-二氢-2H-吡喃[3,2-h]喹啉衍生物的合成

芳醛、8 羟基喹啉与丙二腈或氰乙酸乙酯在KF Al2 O3催化下反应生成一系列新的 3,4 二氢 2H 吡喃 [3,2 h]喹啉衍生物 。

纳米Al_2O_3填充的PVDF-HFP复合电解质的导电性

用真空蒸发法制备了不同配方的 PVDF-HFP复合电解质膜 ,通过交流阻抗测试 ,优选出机械和电化学性能较好的 PVDF-HFP复合电解质的工艺参数 ,m (纳米 Al2 O3 )∶ m (增塑剂 DBP)∶ m ( PVDF-HFP) =1 0∶ 45∶ 45 .用丙酮抽提制得的 PVDF-HFP聚合物膜中的增塑剂 ,再于 1 mol/L Li PF6/DEC-EC(体积比1∶ 1 )的液态电解质中浸渍 ,浸渍后聚合物膜的电导率达到 1 0 -3 S/cm数量级 .

热压反应合成Al_2O_3-Ho_2O_3/TiAl复合材料

利用Al-Ti-TiO2-Ho2O3体系原位反应合成了Ho掺杂Al2O3/TiAl复合材料。采用DTA结合XRD分析对体系反应过程进行了探讨。借助XRD、EDS和SEM等手段,对放热体系的物相组成及晶粒微观形貌进行了分析表征。结果表明:Al-Ti-TiO2-Ho2O3系原位合成的Al2O3/TiAl复合材料由TiAl、Ti3Al、Al2O3以及HoAl3相组成;Ho2O3的引入对基体相生成比例(TiAl:Ti3Al)有一定的调控作用,并使得基体晶粒和Al2O3晶粒均有所细化且逐渐分布均匀。力学性能测试表明:当Ho2O3的引入量为6%时,材料的抗弯强度达到最大值,约为593.5MPa;断裂韧度达到最大值,为8.74MPa.m1/2,具有可接受的力学性能。

P(VDF-HFP)/Al_2O_3基聚合物电解质薄膜的研究

采用溶液浇注和电解液吸收的方法制得了P(VDF HFP) /Al2 O3 基聚合物凝胶电解质薄膜。用这种方法得到的共混薄膜具有较高的电解液吸收率及良好的机械性能。电化学阻抗谱的结果表明 ,与纳米粒径Al2 O3 共混得到的薄膜和镍电极具有较低的界面电阻。另外 ,由于该结构的半结晶性 ,DSC测试并没有发现该共混薄膜的玻璃化转变温度Tg。将此电解质隔膜组装成半电池后表现出优良的充放电性能。

PAA-PAMPS对Al_2O_3-H_2O体系的流变性影响的研究

研究了丙烯酸与2-丙烯酰胺-2-甲基丙磺酸共聚物(PAA-PAMPS)和聚丙烯酸铵盐(PANH4)在pH3-11条件下对水基氧化铝悬浮液流变行为的影响。研究结果表明,PAA-PAMPS对悬浮液的稳定效果要优于研究广泛的PANH4,尤其在酸性条件下,PAA-PAMPS分散剂仍然可以为体系提供很强的静电位阻作用,这种强静电位阻稳定作用使得氧化铝悬浮液稳定分散。

纳米Al_2O_3填充PVDF-HFP电解质的Li^+离子输运特性

采用纳米Al2O3填充PVDF-HFP共聚物的方法,通过液-液萃取法制备了聚合物多孔膜。运用电化学方法测试了Al2O3含量对PVDF-HFP电解质膜的离子电导率、Li+离子迁移数、Li+离子输运活化能的影响。并通过分析填充纳米Al2O3的PVDF-HFP膜的FT-IR光谱图,从微观上说明了Al2O3与聚合物电解质膜中的PVDF-HFP基体存在相互作用。

Na_2O-CaO-Al_2O_3-SiO_2-H_2O系胶凝材料水化物对锶离子的吸附性研究

在35℃恒温水化反应90天条件下,制备了Na2O-CaO-Al2O3-SiO2-H2O系胶凝材料体系水化物,用X射线衍射法(XRD)对水化物进行了表征;用静态吸附法研究了该胶凝材料的化学组成,即(Ca+Na)-(Si+Al)摩尔比C(Ca+Na)/(Si+Al)、Al-Si摩尔比CAl/Si对Sr吸附性能的影响。结果表明,在实验条件下,制备的水化物主要是结晶程度差的C-S-H凝胶;当有Al存在时,生成少量的水化钙铝黄长石。当水化物中C(Ca+Na)/(Si+Al)=0.8时,吸附性能最佳;CAl/Si增大,吸附量增加。当C(Ca+Na)/(Si+Al)=0.8,CAl/Si=0.6时,水化物对Sr2+72h的吸附量可达0.0922mmol.g-1。

ZrOCl_2-H_2SO_4/γ-Al_2O_3催化剂的制备及对1-丁烯齐聚反应的催化性能

以γ-Al_2O_3为载体,负载Zr OCl_2和H_2SO_4制备Zr OCl_2-H_2SO_4/γ-Al_2O_3催化剂,并用于1-丁烯齐聚反应。采用气相色谱在线分析,确定产物组成,考察制备条件对催化剂催化活性的影响,通过1-丁烯转化率和主产物选择性确定适宜的反应条件。结果表明,在Zr OCl_2和H_2SO_4负载质量分数为4.5%和焙烧温度500℃条件下制备的催化剂,在反应温度140℃、1-丁烯液时空速2 h-1和N2分压1.4 MPa条件下,表现出较好的催化活性,1-丁烯转化率96.77%,产物以二聚体(C8)为主,选择性85.99%。该催化剂失活后容易再生,且催化活性良好,1-丁烯转化率92.73%,C8选择性86.73%。

过量PAA-PEO对α-Al_2O_3-H_2O悬浮液流变性能的影响

利用一种新型的分散剂—梳型共聚物poly(acrylic acid)-poly(ethylene oxide)(PAA-PEO),研究了分散剂的添加量以及过量分散剂的添加对α-Al2O3-H2O悬浮液的流变性能的影响,并用常用的分散剂PAA与之比较。结果表明:随着分散剂添加量的增加,浆料的粘度变低,分散剂的添加量存在最佳值。但对于分散剂PAA,过量添加后,会使已经稳定的浆料又重新絮凝。而过量添加的PAA-PEO仍能使浆料保持稳定状态,这是在以往的研究中所没有发现的现象。

Experimental investigation into Fe3O4/SiO2 nanoparticle performance and comparison with other nanofluids in enhanced oil recovery

Nanofluids because of their surface characteristics improve the oil production from reservoirs by enabling different enhanced recovery mechanisms such as wettability alteration,interfacial tension(IFT)reduction,oil viscosity reduction,formation and stabilization of colloidal systems and the decrease in the asphaltene precipitation.To the best of the authors’ knowledge,the synthesis of a new nanocomposite has been studied in this paper for the first time.It consists of nanoparticles of both SiO2 and Fe3O4.Each nanoparticle has its individual surface property and has its distinct effect on the oil production of reservoirs.According to the previous studies,Fe3O4 has been used in the prevention or reduction of asphaltene precipitation and SiO2 has been considered for wettability alteration and/or reducing IFTs in enhanced oil recovery.According to the experimental results,the novel synthesized nanoparticles have increased the oil recovery by the synergistic effects of the formed particles markedly by activating the various mechanisms relative to the use of each of the nanoparticles in the micromodel individually.According to the results obtained for the use of this nanocomposite,understanding reservoir conditions plays an important role in the ultimate goal of enhancing oil recovery and the formation of stable emulsions plays an important role in oil recovery using this method.

Al_2O_3-H_2O纳米蓄冷箱堆码试验的研究

随着人们生活水平的提高,对食品品质的要求也不断的提高,尤其是果蔬的新鲜度。蓄冷运输是解决冷链断链的有效措施。Al_2O_3-H_2O纳米流体蓄冷材料制备时采用低密度海绵来吸附纳米流体中的纳米颗粒,抵御重力作用造成纳米颗粒的沉淀,以达到较长时间的稳定。采用堆码实验,以胡萝卜为实验对象,分析Al_2O_3-H_2O纳米流体蓄冷材料堆码方式(五种),蔬菜预冷温度(-1℃、4℃、13℃),蓄冷材料的质量(5.1kg、4.6kg、3.0kg、2.4kg、1.5kg),三种因素对Al_2O_3-H_2O纳米蓄冷包装箱蓄冷效果的影响。研究结果表明:果蔬不同预冷温度使蓄冷箱中恒温区域明显不同,其中恒温区域Ⅰ>Ⅱ>Ⅲ;对于同一预冷温度下五种堆码方式下的果蔬温度趋势基本一致,且保鲜时间堆码方式1>2>3>4>5;对于存放相同质量胡萝卜的蓄冷箱中蓄冷材料质量越大保温效果越好,在实际中可根据保温时间选择合适的预冷温度。该实验方法及结果具有指导借鉴作用,可以为后期的实验及分析提供理论基础。

冷藏运输用Al_2O_3-H_2O纳米流体蓄冷相变时间分析

利用恒温浴槽分别对质量分数为5%,Al2O3粒径分别为10,20,50,100,500 nm和粒径为10 nm,质量分数分别为5%,10%,12%,15%,20%的两组Al2O3-H2O纳米流体进行冻结,分析了纳米流体和去离子水在冻结过程中的温度变化,讨论了Al2O3粒径和浓度对冻结过程的影响。结果表明,在去离子水基液中加入Al2O3纳米颗粒,减少了凝固相变时间,且当质量分数为5%时,相变时间随粒径增大而增加,粒径为10 nm时,相变时间最短;当粒径为10 nm,质量分数小于10%或大于12%时,相变时间均随质量分数的增大而增加,但质量分数为12%时,相变时间最短。相对于冰作为蓄冷材料,纳米蓄冷材料可节省蓄冷时间,有效提高能源利用效率。