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.

还原温度对纳米FeCo/Al_2O_3复合薄膜结构和磁性的影响

采用溶胶–凝胶旋涂法和H2还原工艺制备了纳米FeCo/Al2O3复合薄膜。利用X射线衍射仪、扫描电子显微镜、原子力显微镜及振动样品磁强计研究了还原温度对薄膜结构、表面形貌和磁性的影响。结果表明,随着还原温度的升高,薄膜中FeCo的晶粒尺寸和晶格常数变大,薄膜的饱和磁化强度(Ms)也同时增大,其矫顽力(Hc)则先增大,后减小。薄膜Ms的变化与FeCo晶粒的尺寸和表面效应有关,Hc的变化则来源于FeCo的单畴结构并受磁各向异性影响。还原温度为900℃的薄膜表现出较好的软磁特性,其Ms及Hc分别为436.7 kA.m–1和34.6 kA.m–1。

Al_2O_3含量对纳米FeCo/Al_2O_3复合薄膜结构和磁性影响

采用溶胶-凝胶旋涂法,结合在氢气中的还原工艺,在Si(001)基片上制备FeCo/Al_2O_3复合薄膜,利用X射线衍射和振动样品磁强计研究Al_2O_3含量对薄膜样品的微观结构和磁性的影响。结果表明:随Al_2O_3含量增加,FeCo晶粒尺寸减小,FeCo/Al_2O_3复合薄膜矫顽力递减,饱和磁化强度先增大后减小,说明Al_2O_3的存在可有效抑制FeCo晶粒生长,但Al_2O_3含量过高不利于复合薄膜软磁性能的优化。

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。

Structure and Magnetic Properties of FeCo/Al_2O_3 Nanocomposites

The soft magnetic nanocomposites with equiatomic FeCo particles dispersed in Al2O3 matrix were synthesized via a sol-gel technique combined with H2 reduction method. The samples were characterized by X-ray diffraction, transmission electron microscopy and vibrating sample magnetometer. The FeCo nanoparticles in all the samples have the typical bcc structure. With the decreasing of Al2O3 content, the mean grain size of FeCo in the nanocomposites and the saturation magnetization of the samples increase, while the coercivity of samples increases firstly and then decreases due to different magnetic mechanisms.

Growth of carbon nanotubes on the novel FeCo-Al_2O_3 catalyst prepared by ultrasonic coprecipitation

FeCo-Al2O3 catalyst was prepared by an ultrasonic coprecipitation （UC） method for the growth of carbon nanotubes （CNTs） from catalytic decomposition of methane.Its catalytic performance was compared with that of the FeCo-Al2O3 catalyst counterparts prepared by stepwise impregnation （I） and conventional coprecipitation （C） methods,respectively.The structure and properties of the catalysts and the CNTs as produced thereon were investigated by means of XRD,XPS,TEM and N2 adsorption techniques.It was found that the catalyst prepared by the ultrasonic coprecipitation method was more active,and the yield and purity of the synthesized CNTs were promoted evidently.The XPS results revealed that there were more active components on the surface of the catalyst prepared by the ultrasonic coprecipitation method.On the other hand,N2 adsorption demonstrated that the catalyst prepared by the ultrasonic coprecipitation method conferred larger specific surface area,which was beneficial to dispersion of active components.TEM images further confirmed its higher dispersion.These factors could be responsible for its higher activity for the growth of CNTs from catalytic decomposition of methane.

激光清洗硅片表面Al_2O_3颗粒的试验和理论分析

以KrF准分子激光器为激光源,对目前工业上常用的硅片研磨抛光液的主要成分Al2O3颗粒进行激光清洗的试验和理论分析。建立一维热传导模型,利用有限元分析软件MSC.MarC模拟硅片表面的温度随激光作用时间和能量密度的分布。通过理论计算,量化了颗粒所受到的清洗力以及其与硅片表面之间的粘附力,理论预测出1μm Al2O3颗粒的激光清洗阈值为60 mJ/cm2。在理论分析的指导下,利用248 nm3、0 ns的KrF准分子激光进行单因素试验,研究激光能量密度、脉冲个数、激光束入射角度对激光干法清洗效率的影响,并且实验验证了清洗模型以及场增强效应对激光清洗结果的影响。

纳米Al_2O_3改性变压器绝缘纸性能的研究

为了研究纳米Al2O3改性绝缘纸的绝缘性能,实验室制备了含不同质量分数的纳米Al2O3绝缘纸手抄片,并对真空浸油后的绝缘纸性能进行了测试。结果表明在一定的质量分数内纳米Al2O3改性后的绝缘纸的工频击穿场强得到较大的提高,在质量分数为1%时,工频击穿场强提高了12.75%,绝缘纸的抗张强度增加了14.13%;在1%的添加量内绝缘纸的介电常数、介电损耗都随纳米Al2O3含量的增加而减小。

Al2O3纳米颗粒对氨水鼓泡吸收过程的强化影响

在试制出了性能稳定的Al2O3纳米流体的基础上,通过定氨气流量和定入口压力两种实验方案,验证了Al2O3纳米颗粒对氨水吸收过程的强化影响,同时找出了引起强化吸收的两个主要影响因素:纳米流体性能的稳定性和吸收器入口与吸收器内气相界面的压力差。在添加十二烷基苯磺酸钠(SDBS)的情况下,可以获得性能稳定而具有强化吸收效果的Al2O3纳米流体,尽管SDBS本身对Al2O3纳米流体强化吸收具有抑制作用。较大的压力差下Al2O3纳米流体在吸收开始阶段就表现出强化吸收效果。随着氨水浓度的增加,氨水对氨气的吸收潜力减小,而Al2O3纳米流体对氨水溶液强化吸收的效果更加明显。对强化现象的可能机理给出了合理解释,为纳米流体对传热传质强化研究提供参考。

内氧化法制备的Cu-Al_2O_3合金的显微组织与性能

利用内氧化法制备了Cu Al2 O3 弥散强化铜合金 ,并对其挤压态、冷拉态、退火态棒材进行了性能测试和显微组织结构分析。结果表明 :挤压后的棒材经 65 %和 90 %的变形量冷拉拔后 ,存在明显的加工纤维组织 ,σb 分别达 468和 495MPa ,相对电导率分别为 90 %和 89%IACS;1 0 30℃× 0 5h高温退火后再结晶现象并不明显 ,仍能保持较高的强度 ;且变形量越大 ,高温退火后强度下降越小 ;

惰性载体Al_2O_3对Fe_2O_3及CuO氧载体煤化学链燃烧的影响

氧载体是煤化学链燃烧技术的基础,惰性载体则是其中的必要组成部分,起着重要的作用。以Al2O3作为典型惰性载体,采用热重分析仪、红外频谱仪、场发射扫描电镜和能谱分析仪以及X衍射仪,对六盘水贫煤与Fe2O3、CuO基氧载体的反应进行了详细的研究。研究发现,Al2O3的引入,使得Fe2O3、CuO基氧载体表面积增大、孔径分布更为优化,而且对氧载体与六盘水贫煤一次热解产物的反应是有利的,能够促进氧载体中更多晶格氧的传递,Fe2O3基氧载体中有更多的Fe2O3还原为低于Fe3O4价态的氧化物,而CuO基氧载体中CuO除了还原为Cu、Cu2O外,其中的CuAl2O4也有一定的反应活性,被还原为CuAlO2。与LPS煤反应时,Fe2O3深度还原产物与部分Al2O3及煤中的SiO2反应生成Fe3Al2(SiO4)3,而CuO则与Al2O3及六盘水贫煤反应生成了(Cu0.215Mg1.785)(Al4Si5O18)复合物。

ZrO_2—Al_2O_3复相陶瓷的研究

以纳米ZrO 、微米Al O 为原料,采用无压烧结方式制备了ZTA 复相陶瓷。结果表明:nano-ZrO 的 2 2 3 2加入有利于制备细晶ZTA 复相陶瓷。此外,nano-ZrO 的加入对 Al O 陶瓷的显微结构也产生影响,ZrO 颗粒以 2 2 3 2“晶内型”和晶界型两种形式存在。合理的配方组成及制备工艺有利于 Z r O 以四方亚稳相存在。Z r O 含量为 2 23 0 w t % 时,其四方相含量可达 6 9 %,有利于应力诱导相变增韧,该 Z T A 复相陶瓷的抗弯强度、断裂韧性分别达到 604MPa、6.87MPa·m1/2。

浆态床中Cu/ZnO/Al_2O_3/ZrO_2+γ-Al_2O_3双功能催化剂一步法合成二甲醚

采用共沉淀法,制备了纤维状CD501甲醇合成催化剂,采用SEM、TEM、XRD和BET等手段对催化剂进行了表征;并将其进一步和γ-Al2O3进行混合,获得了Cu/ZnO/Al2O3/ZrO2+γ-Al2O3双功能催化剂,考察了其在浆态床中一步法合成二甲醚过程的催化特性。结果表明,相比商业催化剂(COM)和LP201催化剂,新型的CD501催化剂具有更大的比表面积和Cu/Zn分散性。对于浆态床中一步法合成二甲醚过程,采用CD501与γ-Al2O3双功能催化剂,相比采用COM或LP201与γ-Al2O3双功能催化剂,CO转化率提高了一倍,且经过270 h测试,CO转化率从61%降至57%,二甲醚时空产率从0.54 g/(g.h)降至0.48 g/(g.h),稳定性显著优于COM催化剂。当反应温度为250℃,压力为4.0 MPa,空速为3 000 mL/(g.h),氢碳比为1.0时,该催化剂应用在浆态床一步法合成二甲醚时,CO转化率为61%,DME时空产率达到0.54 g/(g.h)。

Al_2O_3的W金属化及其与Nb的Pd钎焊研究

在考察Al2O3(95%Al2O3瓷和Al2O3单晶)的W-Y2O3金属化工艺的基础上,制备Al2O3单晶/Pd/Nb的高温钎焊接头,分析Al2O3的W-Y2O3金属化和Al2O3/Nb的Pd钎焊机制。结果表明:在Al2O3基体和金属化层界面附近存在Y元素的偏聚行为,同时伴随着Al含量的下降。这是由于金属化过程中陶瓷/金属化层界面新生固相产物扩散的结果,且其扩散主要为朝金属化层方向。高温钎焊过程中,金属化层中的W元素和金属Nb扩散进入几乎整个Pd焊料层,这使得在Nb/Pd界面附近及焊料层内形成脆性固溶体或金属间化合物,从而导致微裂纹产生。

等离子喷涂纳米Al_2O_3/TiO_2涂层耐磨性的研究

采用液相喷雾造粒的方法将纳米粒子团聚成微米级颗粒,并利用等离子喷涂技术制备出了含有纳米结构的陶瓷涂层。在MM200型环块磨损试验机上进行了常温干摩擦试验,比较了纳米结构涂层和传统陶瓷涂层的耐磨损性能,利用扫描电镜观察了磨损后的磨痕形貌。结果表明,纳米涂层的耐磨损性能明显好于传统陶瓷涂层,且随着磨损载荷的增大,纳米涂层和传统涂层的磨损机制的变化是不同的。传统涂层的磨损机理主要是微裂纹和颗粒的剥落,而相同条件下纳米涂层则由于涂层韧性的提高,几乎不存在微裂纹,主要表现为涂层的局部剥落和粘着。

PPS／Al2O3导热复合材料的性能及其应用

以微米级三氧化二铝(Al2O3)为导热填料,制备了聚苯硫醚(PPS)/Al2O3导热复合材料,研究了硅烷偶联剂表面改性对PPS/Al2O3复合材料力学性能和导热性能的影响。研究表明,硅烷偶联剂对Al2O3的表面改性提高了PPS/Al2O3导热复合材料的力学性能,且材料的热导率随着Al2O3含量的增加而增大,当Al2O3的质量分数为70%时,未改性和改性Al2O3填充PPS导热复合材料的热导率分别达到2.279 W/(m.K)和2.392 W/(m.K),后者的热导率在Al2O3含量较高时偏离Agari理论曲线。SEM分析表明,改性Al2O3在PPS中分散均匀,两者结合紧密。经应用研究表明,PPS/改性Al2O3质量比为40/60的导热复合材料完全可满足发动机零部件、高耐热电子元器件对材料导热与力学性能的要求。