LPCS Ni-Zn-Al_(2)O_(3) Intermediate Layer Enhanced SPS NiCr-Cr_(3)C_(2) Coating with Higher Corrosion and Wear Resistances

The double-layer NiCr-Cr_(3)C_(2)/Ni-Zn-Al_(2)O_(3) coatings with sufficient corrosion and wear resistance were prepared on low carbon steel substrates.The intermediate layers Ni-Zn-Al_(2)O_(3) were fabricated by using low-pressure cold spray (LPCS) method to improve the salt fog corrosion resistance properties of the supersonic plasma spray (SPS) NiCr-Cr_(3)C_(2) coatings.The friction and wear performance for the double-layer and single-layer NiCr-Cr_(3)C_(2) coatings were carried out by line-contact reciprocating sliding,respectively.Combined with the coating surface analysis techniques,the effect of the salt fog corrosion on the tribological properties of the double-layer coatings was studied.The results showed that the double-layer coatings exhibited better wear resistance than that of the single-layer coatings,due to the better corrosion resistance of the intermediate layer;the wear mass losses of the double-layer coatings was reduced by 70%than that of the single layer coatings and the wear mechanism of coatings after salt fog corrosion conditions is mainly corrosion wear.

Comparative investigation of microstructure and high-temperature oxidation resistance of high-velocity oxy-fuel sprayed CoNiCrAlY/nano-Al_(2)O_(3) composite coatings using satellited powders

Satellited CoNiCrAlY–Al_(2)O_(3)feedstocks with 2wt%, 4wt%, and 6wt% oxide nanoparticles and pure CoNiCrAlY powder were deposited by the high-velocity oxy fuel process on an Inconel738 superalloy substrate. The oxidation test was performed at 1050℃ for 5, 50, 100,150, 200, and 400 h. The microstructure and phase composition of powders and coatings were characterized by scanning electron microscopy and X-ray diffraction, respectively. The bonding strength of the coatings was also evaluated. The results proved that with the increase in the percentage of nanoparticles(from 2wt% to 6wt%), the amount of porosity(from 1vol% to 4.7vol%), unmelted particles, and roughness of the coatings(from 4.8 to 8.8 μm) increased, and the bonding strength decreased from 71 to 48 MPa. The thicknesses of the thermally grown oxide layer of pure and composite coatings(2wt%, 4wt%, and 6wt%) after 400 h oxidation were measured as 6.5, 5.5, 7.6, and 8.1 μm, respectively.The CoNiCrAlY–2wt% Al_(2)O_(3)coating showed the highest oxidation resistance due to the diffusion barrier effect of well-dispersed nanoparticles. The CoNiCrAlY–6wt% Al_(2)O_(3)coating had the lowest oxidation resistance due to its rough surface morphology and porous microstructure.

Synthesis of AgCl/Ti_(3)C_(2)@TiO_(2)Ternary Composite Photocatalysts for Photocatalytic Oxidation of 1,4-Dihydropyridine and Tetracycline Hydrochloride

AgCl/Ti_(3)C_(2)@TiO_(2)ternary composites were prepared to form a heterojunction structure between AgCl and TiO_(2)and introduce Ti3C2 as a cocatalyst.The as-prepared AgCl/Ti_(3)C_(2)@TiO_(2)composites showed higher photocatalytic activity than pure AgCl and Ti_(3)C_(2)@TiO_(2)for photooxidation of a 1,4-dihydropyridine derivative(1,4-DHP)and tetracycline hydrochloride(TCH)under visible light irradiation(λ>400 nm).The photocatalytic activity of AgCl/Ti_(3)C_(2)@TiO_(2)composites depended on Ti_(3)C_(2)@TiO_(2)content,and the catalytic activity of the optimized samples were 6.9 times higher than that of pure AgCl for 1,4-DHP photodehydrogenation and 7.3 times higher than that of Ti_(3)C_(2)@TiO_(2)for TCH photooxidation.The increased photocatalytic activity was due to the formation of a heterojunction structure between AgCl and TiO_(2)and the introduction of Ti3C2 as a cocatalyst,which lowered the internal resistance,sped up the charge transfer,and increased the separation efficiency of photogenerated carries.Photogenerated holes and superoxide radical anions were the major active species in the photocatalytic process.

A study on reactive braze coating of (TiC+Cr_3C_2)/Fe composite coatings

A new hardfacing process, reactive braze coating process (RBCC) was studied, and (TiC+Cr_3C_2)/Fe composite coatings were prepared by RBCC using carbon, Cr_3C_2, iron, ferrochromium and titanium powder as the raw materials in vacuum braze furnace. The results show that TiC is in-situ synthesized in the coatings. The methods of introducing Cr_3C_2 have great effects on the distribution of TiC. Adding Cr_3C_2 directly to the raw materials for coatings, fine TiC particles aggregate into discoids parallel to the coating surface, whereas, in-situ synthesizing Cr_3C_2 in coatings, the aggregations of TiC are lumpish. During braze coating, Cr_3C_2 particles directly added dissolve and precipitate to become needle-shaped. The coatings have an even and smooth surface and are combined with their mild steel substrates by a metallurgical bonding.

Ti_(3)C_(2)T_(x)改性棉织物的结构及性能

将Ti_(3)C_(2)T_(x)涂布在聚乙烯亚胺预处理棉织物的表面,制备Ti_(3)C_(2)T_(x)改性棉织物。聚乙烯亚胺预处理大大提高了Ti_(3)C_(2)T_(x)在棉织物表面的负载量和负载牢度。涂布Ti_(3)C_(2)T_(x)后,棉织物由白色转变成深黑色,K/S值大幅提高。棉纤维表面被Ti_(3)C_(2)T_(x)均匀包覆,形成一层连续致密的Ti_(3)C_(2)T_(x)导电涂层。Ti、F、Cl三种元素被成功引入到棉织物表面,相对原子比分别为18.68%、6.39%和3.28%。Ti_(3)C_(2)T_(x)在棉织物表面成膜后,提升了对氧气和水的稳定性,而且基本不影响棉织物的透气性能。

SiO_(2)/g-C_(3)N_(4)复合材料的3D打印制备及对染料废水的处理性能

使用直写型3D打印的方式制备了高比表面积与多孔结构的SiO_(2)/g-C_(3)N_(4)复合气凝胶材料,并对材料的微观形貌、多孔结构进行了表征,测试了其对于模拟溶液中高浓度罗丹明B(RhB)的吸附及催化降解性能。研究结果表明,3D打印SiO_(2)块体气凝胶比表面积达482.1 m^(2)/g,具备孔隙体积为1.195 cm^(3)/g的纳米多孔结构,对RhB具有好的吸附性能。经g-C_(3)N_(4)修饰所得的SiO_(2)/g-C_(3)N_(4)复合气凝胶材料孔结构与比表面积变化不大,除仍保持较高的吸附性能外,在紫外光照下对RhB(100 mg/L)的去除率可达99%以上。经5次循环测试后SiO_(2)/g-C_(3)N_(4)复合气凝胶对RhB的去除率仍达92.98%,相比之下3D打印SiO_(2)气凝胶仅为55.75%。机理分析表明,复合材料中的g-C_(3)N_(4)可吸收光能并生成光生电子空穴对,其与H_(2)O和O_(2)作用产生氧化活性物质超氧自由基,最终均参与光催化氧化还原反应中对RhB大分子的催化氧化降解。3D打印结构具有的高比表面积实现了催化剂与RhB大分子较大的反应接触面积,提高了复合材料的光催化降解效率及循环稳定性。

Ti_(3)C_(2)T_(x)/Fe_(3)O_(4)纳米复合材料的吸波和电磁屏蔽性能与机制

在电磁屏蔽领域,铁氧体是常用的涂覆型吸波剂,但以Fe_(3)O_(4)为首的铁氧体存在一些不足。本研究采用冷冻干燥的方法成功制备了花苞状Ti_(3)C_(2)T_(x)/Fe_(3)O_(4)复合材料,Ti_(3)C_(2)T_(x)/Fe_(3)O_(4)复合材料的花苞状结构对电磁波的多重反射、界面极化和电磁耦合作用等使复合材料具有更好的微波吸收性能。当频率为6.74 GHz时,最小反射损耗达到-51.41 dB,对应的匹配厚度为2.8 mm,这意味着它可以吸收99.99928%的电磁波。本研究中特殊的花苞状Ti_(3)C_(2)T_(x)/Fe_(3)O_(4)复合材料表现出优异的吸波性能,在电磁屏蔽领域具有良好的应用前景。

Y_(3)Si_(2)C_(2)掺量对Si_(3)N_(4)陶瓷微观结构与力/热学性能的影响

Si_(3)N_(4)陶瓷具有优异的力学、化学、热学性能,在电子元器件散热与封装领域具有良好的应用前景。为制备高强度、高导热的Si_(3)N_(4)陶瓷,采用Y_(3)Si_(2)C_(2)-MgO二元复合烧结助剂,系统研究了Y_(3)Si_(2)C_(2)掺量与保温时间对Si_(3)N_(4)陶瓷致密度、力学性能及热导率的影响规律,并基于微观结构和物相组成分析阐释了Si_(3)N_(4)陶瓷力/热学性能的优化机制。研究结果表明:随着Y_(3)Si_(2)C_(2)掺量的增加,Si_(3)N_(4)陶瓷试样(保温时间分别为4 h和12 h)的热导率和弯曲强度均呈现先增大后降低的变化规律;保温4 h所制Si_(3)N_(4)陶瓷的弯曲强度主要受致密度的影响,保温12 h所制Si_(3)N_(4)陶瓷的弯曲强度主要受微观结构的均匀度及晶粒尺寸的影响;保温时间的延长有利于气体排出和晶粒生长,从而促进Si_(3)N_(4)陶瓷的致密化及热导率的提升。利用气压烧结(1900℃保温12 h),掺加1.5 mol%的Y_(3)Si_(2)C_(2)可制得致密度为99.0%、热导率为(106.80±2.64)W·m^(−1)·K^(−1)、弯曲强度为(590.21±25.69)MPa的Si_(3)N_(4)陶瓷,其具有优良的力/热学综合性能,有利于提升Si_(3)N_(4)陶瓷封装电子元器件的服役安全性与可靠性。

Ti_(3)C_(2)Tx改性环氧树脂涂层的制备及其在人工海水环境下的摩擦学性能研究

以氢氟酸作为MAX相(Ti_(3)AlC_(2))粉体的刻蚀剂,制备出了具有“手风琴”形貌的Ti_(3)C_(2)T_(x)MXene,以水性环氧树脂、水性环氧树脂固化剂以及Ti_(3)C_(2)T_(x)为原料制备了Ti_(3)C_(2)T_(x)环氧树脂涂层.通过往复摩擦磨损试验机和光学数码显微镜测试涂层在人工海水环境下的摩擦系数和磨损率;采用扫描电子显微镜、显微共焦激光拉曼光谱仪分析磨痕表面形貌、物相,进而探讨磨损机理;使用电化学工作站,探究人工海水环境下涂层的耐腐蚀性能.研究表明:与去离子水环境相对比,人工海水环境下Ti_(3)C_(2)T_(x)环氧树脂涂层具有更低的摩擦系数;同时Ti_(3)C_(2)T_(x)的加入显著提升了环氧树脂涂层的耐腐蚀性能.Ti_(3)C_(2)T_(x)的添加能够显著提高环氧树脂涂层在人工海水环境下的摩擦学性能.随着Ti_(3)C_(2)T_(x)含量的增大,涂层的摩擦系数和磨损率均呈先减小后增大的趋势,当Ti_(3)C_(2)T_(x)的含量为1.0 wt%时,涂层的摩擦系数和磨损率最低,分别为0.13和4.99×10-5mm3/Nm,与纯环氧树脂涂层相比,分别降低了65.8%和两个数量级.

MoS_(2)/Ti_(3)C_(2)T_(x)对磷酸盐涂层宽温域摩擦学性能的影响

目的以MoS_(2)/Ti_(3)C_(2)T_(x)为固体润滑剂,在25(室温)~400℃下制备具有优异摩擦学性能的MoS_(2)/Ti_(3)C_(2)T_(x)磷酸盐涂层,并研究它在不同温度下的减摩抗磨机制。方法以氢氟酸为MAX相(Ti_(3)AlC_(2))粉体的蚀刻剂,制备具有“手风琴”形貌的Ti3C2TxMXene。以硫脲、钼酸铵、MXene为原料,制备MoS_(2)/Ti_(3)C_(2)T_(x)复合材料。以Al(H2PO4)3为黏结剂,以Cu O为固化剂,分别以Ti_(3)C_(2)T_(x)和MoS_(2)/Ti_(3)C_(2)T_(x)为固体润滑剂,制备Ti3C2Tx磷酸盐涂层和MoS_(2)/Ti_(3)C_(2)T_(x)磷酸盐涂层。通过高温摩擦磨损试验机和光学数码显微镜测试涂层在25~400℃时的摩擦因数和磨损率,采用扫描电子显微镜和显微共焦激光拉曼光谱仪分析磨痕表面形貌、物相,进而探讨磨损机理。结果当Ti_(3)C_(2)T_(x)与Al(H_(2)PO_(4))_(3)的质量比为2∶1时,Ti3C2Tx磷酸盐涂层在室温(25℃)下的摩擦因数和磨损率均最低,分别为0.38和2.75×10-4mm3/(N·m)。在Ti_(3)C_(2)T_(x)表面负载MoS2,将MoS_(2)/Ti_(3)C_(2)T_(x)作为固体润滑剂,能够显著降低磷酸盐涂层在25~400℃下的摩擦因数,同时磨损率也有所降低。MoS_(2)/Ti_(3)C_(2)T_(x)磷酸盐涂层在室温下的摩擦因数低至0.11,相较于Ti3C2Tx磷酸盐涂层降低了71.1%,其磨损率相较于Ti3C2Tx磷酸盐涂层降低了1个数量级。在25~400℃范围内,MoS_(2)/Ti_(3)C_(2)T_(x)磷酸盐涂层的摩擦因数均低于0.21。随着温度的升高,摩擦因数呈先减小后增大的趋势,磨损率整体上呈增大趋势。结论相较于Ti_(3)C_(2)T_(x)磷酸盐涂层,MoS_(2)/Ti_(3)C_(2)T_(x)磷酸盐涂层在25~400℃下的摩擦学性能均得到显著提升。

Ti_(3)C_(2)MXene纳米片制备、改性及其光催化应用研究

近年来,利用光催化缓解环境污染和能源短缺问题受到广泛关注。Ti_(3)C_(2)MXene作为一种新型二维材料,具有丰富的表面基团、多活性位点以及优异的光热和导电性能,在光催化应用研究上逐渐深入。本文概述了Ti_(3)C_(2)MXene纳米片的结构、光电特性及合成方法,讨论了二维Ti_(3)C_(2)纳米片及其改性材料的复合结构,重点分析了Ti_(3)C_(2)纳米片在新型有机污染物降解、水分解产氢和CO_(2)还原的光催化应用研究进展,对Ti_(3)C_(2)纳米片的深入研究提供一定的参考价值。

煤油流量对HVOF喷涂FeCrMoSi-Ti_(3)SiC_(2)涂层高温摩擦磨损性能的影响

目的提高燃煤锅炉四管的耐磨性能。方法使用喷雾造粒技术制备FeCrMoSi/Ti_(3)SiC_(2)复合粉末,并利用超音速火焰喷涂技术(HVOF)在12CrMoV基体上制备煤油流量分别为26、28、30、32 L/h的复合涂层。使用X射线衍射仪(XRD)、扫描电镜(SEM)及其自带的能谱仪(EDS)、Raman、维氏显微硬度计和摩擦磨损试验机研究FeCrMoSi/Ti_(3)SiC_(2)粉末及其涂层相组成、组织结构,检测涂层的力学性能,并对涂层在800℃下的摩擦学性能和磨损机理进行系统分析。结果粉末物相主要由Ti_(3)SiC_(2)、Fe-Cr和TiC组成,涂层的物相与粉末类似,但是新产生了SiC相,且随着煤油流量的升高,Ti_(3)SiC_(2)物相逐渐分解。当煤油流量为30、32 L/h时,涂层内Ti_(3)SiC_(2)物相大量分解。涂层的硬度和断裂韧性随着煤油流量的升高表现出先升高、后降低的趋势,孔隙率和磨损率呈现先减小、后增大的趋势。当煤油流量为28 L/h时,涂层磨损率最低,约为5.44×10^(-15)m^(3)/(N·m)。结论煤油流量为28 L/h时,涂层表面生成的SiO_(2)、TiO_(2)和Fe_(2)O_(3)等氧化物均匀分布在磨痕和对偶球表面,有效阻挡了对偶球和涂层的直接接触,使得涂层显示出最优异的摩擦学性能。涂层的主要磨损机制为氧化磨损和黏着磨损。

硅藻土/Bi_(2)MoO_(6)/g-C_(3)N_(4)复合材料的制备及其降解四环素的研究

采用新颖的热缩聚法制备得到石墨相氮化碳(g-C_(3)N_(4)),通过表面修饰钼酸铋、硅藻土进行改性得到硅藻土/Bi_(2)MoO_(6)/g-C_(3)N_(4)复合光催化材料。借助SEM(扫描电子显微镜),EDS(能谱仪),XRD(X射线衍射仪),FTIR(傅里叶变换红外光谱仪),UVV1SDRS(紫外可见漫反射光谱仪),PL(光致发光光谱仪),比表面积及孔径测试仪和电化学工作站等多种仪器对复合材料进行表征,并研究了其降解废水中的盐酸四环素(TC)的光催化性能。结果表明,硅藻土/Bi_(2)MoO_(6)/g-C_(3)N_(4)复合材料表现了良好吸附光催化协同作用和优异的稳定性。在可见光照射下反应120 min对TC的降解率最高达到了95.3%,比二元复合材料Bi_(2)MoO_(6)/g-C_(3)N_(4)的89.1%及纯g-C_(3)N_(4)的66.3%均有较大提升。本研究为吸附光催化协同处理水中抗生素类提供了新思路。

量子点修饰g-C_(3)N_(4)@Fe_(2)O_(3)纳米杂化材料的制备及在水性环氧-丙烯酸酯乳液中的应用

水性环氧-丙烯酸酯乳液(WEP)因污染小、附着力好、耐候性好被广泛应用于涂料领域,但其不尽如意的耐腐蚀性大大限制了其在防腐涂料领域的应用。文中采用煅烧法制备了g-C_(3)N_(4)@Fe_(2)O_(3)纳米杂化材料,微波法制备了柠檬酸碳量子点溶液,通过傅里叶变换红外光谱、X射线衍射分析、X射线光电子能谱仪和透射电子显微镜分析了g-C_(3)N_(4)@Fe_(2)O_(3)杂化粒子的结构和形态,采用扫描电子显微镜观察了复合涂层的形貌,通过电化学阻抗谱和盐雾实验研究了WEP、g-C_(3)N_(4)@Fe_(2)O_(3)/WEP、经量子点修饰的g-C_(3)N_(4)@Fe_(2)O_(3)/WEP涂层的耐腐性能。结果表明,Fe_(2)O_(3)粒子成功负载到了g-C_(3)N_(4)纳米片上,经柠檬酸量子点修饰后,g-C_(3)N_(4)@Fe_(2)O_(3)在WEP中具有良好的分散性,经柠檬酸量子点修饰的g-C_(3)N_(4)@Fe_(2)O_(3)/WEP乳液涂膜在质量分数3.5%NaCl溶液中浸泡1 d时阻抗高达1.5×10^(10)Ω·cm^(2),较纯WEP乳液涂膜高出2个数量级;浸泡7 d后,复合涂层阻抗值仍高达8.7×10^(9)Ω·cm^(2);盐雾168 h后复合涂层表面锈蚀较少。

Abrasive wear characteristics and mechanisms of Al_2O_3/PA1010 composite coatings

The abrasive wear characteristics of Al_2O_3/PA1010 composite coatings on thesurface of quenched and low-temperature temper steel 45 were tested on the template abrasive weartesting machine and the same uncoated steel 45 was used as a reference material. Experimentalresults showed that the abrasive wear resistance of Al_2O_3/PA1010 composite coatings has a goodlinear relationship with the volume fraction of Al_2O_3 particles in Al_2O_3/PA1010 compositecoatings, and the linear correlative coefficient is 0.979. Under the experimental conditions, thesize of Al_2O_3 particles (40.5-161.0 μm) has little influence on the abrasive wear resistance ofAl_2O_3/PA1010 composite coatings. By treating the surface of Al_2O_3 particles with a suitablebonding agent, the distribution of Al_2O_3 particles in matrix PA1010 is more homogeneous and thebonding state between Al_2O_3 particles and matrix PA1010 is better. Therefore, the Al_2O_3particles in Al_2O_3/PA1010 composite coatings make the Al_2O_3/PA1010 composite coatings havebetter abrasive wear resistance than PA1010 coatings. The wear resistance of Al_2O_3/PA1010composite coatings is about 45% compared with that of steel 45.

Preparation and tribological performance of electrodeposited Ni-TiB_2-Dy_2O_3 composite coatings

TiB2 and Dy2O3 were used as codeposited particles in the preparation of Ni-TiB2-Dy2O3 composite coatings to improve its performance. Ni-TiB2-Dy2O3 composite coatings were prepared by electrodeposition method with a nickel cetyltrimethylammonium bromide and hexadecylpyridinium bromide solution containing TiB2 and Dy2O3 particles. The content of codeposited TiB2 and Dy2O3 in the composite coatings was controlled by adding TiB2 and Dy2O3 particles of different concentrations into the solution, respectively. The effects of TiB2 and Dy2O3 content on microhardness, wear mass loss and friction coefficients of composite coatings were investigated. The composite coatings were characterized by X-ray diffraction （XRD）, inductively coupled plasma-atomic emission spectrometer （ICP-AES） and scanning electron microscopy （SEM） techniques. Ni-TiBE-Dy2O3 composite coatings showed higher microhardness, lower wear mass loss and friction coefficient compared with those of the pure Ni coating and Ni-TiB2 composite coatings. The wear mass loss of Ni-TiB2-Dy2O3 composite coatings was 9 and 1.57 times lower than that of the pure Ni coating and Ni-TiB2 composite coatings, respectively. The friction coefficient of pure Ni coating, Ni-TiB2 and Ni-TiB2-Dy2O3 composite coatings were 0.723, 0.815 and 0.619, respectively. Ni-TiBE-Dy2O3 composite coatings displayed the least friction coefficient among the three coatings. Dy2O3 particles in composite coatings might serve as a solid lubricant between contact surfaces to decrease the friction coefficient and abate the wear of the composite coatings. The loading-bearing capacity and the wear-reducing effect of the Dy2O3 particles were closely related to the content of Dy2O3 particles in the composite coatings.

Ti_(3)C_(2)T_(x)MXene基复合材料驱动器的制备及研究进展

驱动器具备质轻、柔软、微小、智能化等特点,能够通过感受外界刺激如光、电、温度、湿度等产生相应的力、位移或形变,在软机器人、智能穿戴设备、仿生工程等领域具备巨大的应用潜力。然而,驱动器也存在着响应灵敏性和稳定性方面的缺陷。MXene具有高导电性、表面官能团可调性和优越的力学性能,有望成为解决上述问题的关键。目前,MXene材料主要面临易氧化和相对较高的生产成本等挑战,相关研究处于早期阶段,需要进一步验证其实际应用潜力。因此,本文介绍了MXene及MXene基驱动器的制备方法,并梳理光热响应型驱动器、离子响应型驱动器、湿度响应型驱动器及其他响应型驱动器的研究进展,同时对MXene基驱动器未来的研究方向进行了展望。

g-C_(3)N_(4)@Bi_(2)WO_(6)的制备及其光催化性能研究

将g-C_(3)N_(4)和Bi_(2)WO_(6)制备复合材料g-C_(3)N_(4)@Bi_(2)WO_(6),通过SEM、XRD以及PL等技术对g-C_(3)N_(4)@Bi_(2)WO_(6)进行了结构和光学性质的表征,并以罗丹明B(RhB)为目标染料,考察了不同负载量的催化性能差异,推测其光催化机理.实验证明复合材料稳定性很好,并且催化性能相对于纯的g-C_(3)N_(4)和Bi_(2)WO_(6)有了很大的提高.这项工作为高活性异质结构光催化剂的设计和合成提供了思路.

Ti_(3)C_(2)/NH_(2)-MIL-125(Ti)复合光催化剂制备及其还原Cr(Ⅵ)性能研究

构建异质结复合光催化剂促进光生电荷的分离是提升半导体光催化活性的有效途径。本研究通过一步溶剂热法在NH_(2)-MIL-125(Ti)的合成过程中引入Ti_(3)C_(2)制得Ti_(3)C_(2)/NH_(2)-MIL-125(Ti)复合光催化剂,利用X射线衍射、扫描电子显微镜、光致发光谱图、光电流响应研究了催化剂的晶相结构、形貌及其光生载流子的分离效率,并考察了可见光光催化还原Cr(Ⅵ)的性能。结果表明,制得的复合光催化剂在光照60 min后对Cr(Ⅵ)的去除率可达100%,是纯NH_(2)-MIL-125(Ti)的2.5倍。这归因于具有良好导电性的Ti_(3)C_(2)纳米片为光生载流子提供了一个快速通道,加速了复合材料中电子的传输和迁移。

Effect of Al_2O_3on Structure and Wearability of Composite Coating

The composite coating was prepared by thermal spray welding after making composite powder,which is composed of Ni-based self-melted alloy and AlOceramic powder including nano,sub-micron and micron powders.The influences of contents and sizes of AlOon the structure and wearability were investigated.The results show that the wear resistance of the coating would be increased greatly by adding AlO,but the spray weldability decreases with increasing AlOcontent.So there is an optimal content of AlOpowder.The composite coating with AlOnano or sub-micron powder of 0.5% has the best abrasive resistance,while the optimal content of AlOmicron powder is 1 %.