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.

Preparation,Characterization and Photothermal Study of PVA/Ti_(2)O_(3) Composite Films

In this work,flexible photothermal PVA/Ti_(2)O_(3) composite films with different amount(0 wt%,5 wt%,10 wt%,15 wt%)of Ti_(2)O_(3) particles modified by steric acid were prepared by a simple solution casting method.The microstructures,XRD patterns,FTIR spectra,UV-Vis-NIR spectra thermo-conductivity,thermo-stability and photothermal effects of these composite films were all characterized.These results indicated that Ti_(2)O_(3) particles were well dispersed throughout the polyvinyl alcohol(PVA)matrix in the PVA/Ti_(2)O_(3) composite films.And Ti_(2)O_(3) particles could also effectively improve the photothermal properties of the composite films which exhibited high light absorption and generated a high temperature(about 57.4℃for film with 15 wt%Ti_(2)O_(3) amount)on the surface when it was irradiated by a simulated sunlight source(1 kW/m^(2)).

1060Al/Al-Al_(2)O_(3)/1060Al层状铝基复合材料热变形模型对比分析

采用Gleeble-3500热模拟试验机在变形温度为25~400℃、应变速率为0.01~10s^(-1)和真应变为0.85的条件下,对1060Al/Al-Al_(2)O_(3)/1060Al层状铝基复合材料进行了热压缩试验,研究其热变形行为,建立了应变补偿的Arrhenius (SCA)、修正的Johnson-Cook (MJC)和修正的Zerilli-Armstrong (MZA) 3种本构模型,并对流变应力的预测值与实验值进行对比。结果表明,层状复合材料流变应力呈加工硬化型,并随温度升高或应变速率降低而降低;在100℃/0.5s^(-1)、200℃/0.1s^(-1)和300℃/0.1s^(-1)条件下,层状复合材料组元层间变形较为协调;3种本构模型中,MZA模型的相关系数最高,R为0.99085、平均绝对相对误差最低,e_(AARE)为0.046966,更适合描述1060Al/Al-Al_(2)O_(3)/1060Al层状铝基复合材料的热变形行为。

镁合金基体超音速等离子喷涂Al-Al_(2)O_(3)复合涂层组织与耐腐蚀性能研究

镁合金的耐腐蚀性能差,在工程应用中往往因腐蚀而发生失效,通过表面工程技术对镁合金进行表面改性或防护,是工程应用中采用的重要手段。本工作采用超音速等离子喷涂(Supersonic plasma spray,SPS)工艺在AZ61镁合金表面制备Al-Al_(2)O_(3)复合涂层,其中Al_(2)O_(3)的质量分数分别为30%、50%和70%(下文简称AA30、AA50、AA70)。研究了Al_(2)O_(3)含量对Al-Al_(2)O_(3)复合涂层微观组织、孔隙率、电化学性能以及盐雾耐腐蚀性能的影响。结果表明,涂层的表面呈现熔滴铺展堆叠形成的浪花状形貌,粉末熔化充分,涂层内部结合紧密,各涂层均由Al、α-Al_(2)O_(3)和γ-Al_(2)O_(3)三种物相组成。AA70涂层的孔隙率较AA30和AA50明显升高,达到了6.71%;电化学极化试验研究表明,各涂层比AZ61镁合金基体表现出更高的电极电位和较低的自腐蚀电流密度,AZ61镁合金基体自腐蚀电流密度为5.144 mA·m^(-2),而AA30、AA50和AA70的自腐蚀电流密度分别为2.950 mA·m^(-2)、3.084 mA·m^(-2)和2.496 mA·m^(-2),三种涂层相比母材AZ61表现出较低的电化学腐蚀速率。电化学阻抗测试结果表明,三种涂层的R ct达到了AZ61镁合金基体的两倍左右,显示出较低的阳极溶解活性。在盐雾试验中,AZ61镁合金基体产生大量的腐蚀产物和龟裂纹;涂层AA30和AA50由于腐蚀产物的积累产生了大量裂纹,在涂层与基体的界面处发生了电偶腐蚀,最终随着基体表面的腐蚀,涂层产生了剥落;涂层AA70腐蚀程度最小,表现出最佳的抗腐蚀性能。

Tribological behavior and mechanism of NiCrBSi-Y_2O_3 composite coatings

The NiCrBSi-Y2O3 composite coatings were prepared on the surface of 45 carbon steel by plasma spray, the microstructure and tribological properties of the coatings were investigated. The results show that the NiCrBSi-Y2O3 composite coatings are mainly composed of γ-Ni, CrB, Cr7C3 and Y2O3. With addition of Y2O3, hard phases such as CrB, Cr7C3 emerge in composite coating, and the density of the composite coatings also increases. The NiCrBSi-0.5Y2O3 composite coating presents excellent tribological properties. Its friction coefficient is 0.175, which is about 37% of that of the pure NiCrBSi coating. The mass wear loss is 1.2 mg, which is reduced by 43% compared with the pure NiCrBSi coating. When the loads are 6-10 N, the NiCrBSi-0.5Y2O3 composite coating suffers from slight wear and the wear mechanisms are mainly adhesive wear accompany with slight micro-cutting wear and micro-fracture wear. As the load increases to 12 N, the wear mechanisms are adhesive wear and severe micro-cutting wear.

Preparation of Al_2O_3/Au nano-laminated composite coatings and their oxidation resistance on stainless steel

Al2O3/Au nano-laminated composite coatings were prepared by means of magnetron sputtering. The coating was compact and comprised of nano-laminated Al2O3 and Au layers. High temperature cyclic oxidation test was employed to investigate the oxidation resistance of the composite coatings. The results revealed that the applied Al2O3/Au nano-laminated composite coatings improved the oxidation and spallation resistance of the stainless steel substrate significantly. The mechanism accounting for oxidation resistance was related with the suppression of inward oxygen diffusion and selective oxidation of Cr in the substrate. The mechanism accounting for spallation resistance was attributed to the relaxation of thermal stress by the nano-laminated structure.

Oxidation and Electrical Properties of Cu-Mn_(3)O_(4)Composite Coating Obtained by Electrodeposition on SOFC Interconnects

Cu-Mn_(3)O_(4)composite coating was prepared on the SUS 430 ferritic stainless steel by electrodeposition and then exposed in air at 800℃corresponding to the cathode atmosphere of solid oxide fuel cell(SOFC).A dual-layer oxide structure mainly comprising an external layer of CuO followed by(Cu,Mn,Fe)_(3)O_(4)spinel and an internal layer of Cr-rich oxide was thermally developed on the coated steel.The scale area-specific resistances(ASRs)of the coated steels were lower than the scale ASR of the uncoated steel after identical thermal exposure.The external layer of CuO/(Cu,Mn,Fe)_(3)O_(4)spinel not only served as a barrier to reduce the growth rate of Cr-rich oxide internal layer and to suppress the outward diffusion of Cr,but also lowered the surface scale ASRs considerably.

Critical current degradation in an epoxy-impregnated rare-earth Ba_(2)Cu_(3)O_(7-x)coated conductor caused by damage during a quench

High-temperature superconducting(HTS)rare-earth Ba_(2)Cu_(3)O_(7-x)(REBCO)coated conductors(CCs)have significant potential in high-current and high-field applications.However,owing to the weak interface strength of the laminated composite REBCO CCs,the damage induced by the thermal mismatch stress under a combination of epoxy impregnation,cooling,and quenching can cause premature degradation of the critical current.In this study,a three-dimensional(3D)electromagnetic-thermal-mechanical model based on the H-formulation and cohesive zone model(CZM)is developed to study the critical current degradation characteristics in an epoxy-impregnated REBCO CC caused by the damage during a quench.The temperature variation,critical current degradation of the REBCO CC,and its degradation onset temperature calculated by the numerical model are in agreement with the experimental data taken from the literature.The delamination of the REBCO CC predicted by the numerical model is consistent with the experimental result.The numerical results also indicate that the shear stress is the main contributor to the damage propagation inside the REBCO CC.The premature degradation of the critical current during a quench is closely related to the interface shear strength inside the REBCO CC.Finally,the effects of the coefficient of thermal expansion(CTE)of the epoxy resin,thickness of the substrate,and substrate material on the critical current degradation characteristics of the epoxy-impregnated REBCO CC during a quench are also discussed.These results help us understand the relationship between the current-carrying degradation and damage in the HTS applications.

Two-Dimensional Graphitic Carbon-Nitride(g-C_(3)N_(4))-Coated LiNi_(0.8)Co_(0.1)Mn_(0.1)O_(2)Cathodes for High-Energy-Density and Long-Life Lithium Batteries

High-capacity nickel-rich layered oxides are promising cathode materials for high-energy-density lithium batteries.However,the poor structural stability and severe side reactions at the electrode/electrolyte interface result in unsatisfactory cycle performance.Herein,the thin layer of two-dimensional(2D)graphitic carbon-nitride(g-C_(3)N_(4))is uniformly coated on the LiNi_(0.8)Co_(0.1)Mn_(0.1)O_(2)(denoted as NCM811@CN)using a facile chemical vaporization-assisted synthesis method.As an ideal protective layer,the g-C_(3)N_(4)layer effectively avoids direct contact between the NCM811 cathode and the electrolyte,preventing harmful side reactions and inhibiting secondary crystal cracking.Moreover,the unique nanopore structure and abundant nitrogen vacancy edges in g-C_(3)N_(4)facilitate the adsorption and diffusion of lithium ions,which enhances the lithium deintercalation/intercalation kinetics of the NCM811 cathode.As a result,the NCM811@CN-3wt%cathode exhibits 161.3 mAh g^(−1)and capacity retention of 84.6%at 0.5 C and 55°C after 400 cycles and 95.7 mAh g^(−1)at 10 C,which is greatly superior to the uncoated NCM811(i.e.129.3 mAh g^(−1)and capacity retention of 67.4%at 0.5 C and 55°C after 220 cycles and 28.8 mAh g^(−1)at 10 C).The improved cycle performance of the NCM811@CN-3wt%cathode is also applicable to solid–liquid-hybrid cells composed of PVDF:LLZTO electrolyte membranes,which show 163.8 mAh g^(−1)and the capacity retention of 88.1%at 0.1 C and 30°C after 200 cycles and 95.3 mAh g^(−1)at 1 C.

超声功率对连杆轴瓦Ni-Al_(2)O_(3)镀层耐磨性能的影响

用超声-喷射电沉积方法研究了超声波功率对连杆轴瓦表面Ni-Al_(2)O_(3)镀层耐磨性的影响。用扫描电子显微镜(SEM)、能谱分析仪(EDS)、X射线衍射仪(XRD)、高分辨率电子显微镜(TEM)对Ni-Al_(2)O_(3)镀层的表面形貌、物相组成、组织结构进行分析,用摩擦磨损试验机及纳米显微硬度计对镀层的显微硬度及耐磨性能进行研究。结果表明:超声波功率通过空化效应及微射流作用搅拌镀液,可使Al_(2)O_(3)纳米粒子更好的悬浮在镀液中,从而影响镀层耐磨性。当超声波功率为200 W时,Ni-Al_(2)O_(3)镀层中Ni峰低且宽,镀层晶粒细小,结构致密,显微硬度达到639.2HV,摩擦因数和磨损质量损失分别为0.53和0.27 mg。涂覆Ni-Al_(2)O_(3)镀层的连杆轴瓦磨损量仅为0.31 mg,耐磨性高于未涂覆Ni-Al_(2)O_(3)镀层的连杆轴瓦。

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.

时效处理对Cu-Y_(2)O_(3)-Ti复合材料组织及性能的影响

以Cu、Y、Ti和CuO粉末为原料,采用机械合金化(MA)和热还原的方法制备了Cu-Y_(2)O_(3)-Ti复合粉末。然后经放电等离子烧结(SPS)技术制备了Cu-Y_(2)O_(3)-Ti复合材料,并对材料进行了900℃固溶1 h和不同温度时效2 h的处理。采用光学显微镜(OM)、扫描电镜(SEM)、X射线衍射仪(XRD)、能谱仪(EDS)、拉伸试验和导电率测量仪等研究了不同温度时效处理对Cu-Y_(2)O_(3)-Ti复合材料组织及性能的影响。结果表明:随着时效温度的升高,Cu-Y_(2)O_(3)-Ti复合材料的晶粒和第二相尺寸增大,导电率降低,最大应变和抗拉强度先增大后减小。Cu-Y_(2)O_(3)-Ti复合材料经900℃固溶1 h+400℃时效2 h后,综合性能最优,其具有良好塑性的同时,抗拉强度和导电率分别达到326.4 MPa和73.0%IACS。

Co_(3)O_(4)/Fe_(2)O_(3)异质结复合材料的制备及其紫外光光电探测性能

分别采用旋涂法和水热法在FTO衬底上制备Co_(3)O_(4)种子层和Co_(3)O_(4)薄膜,再在Co_(3)O_(4)薄膜上水热生长Fe_(2)O_(3)纳米棒,获得了高质量的Co_(3)O_(4)/Fe_(2)O_(3)异质结复合材料。通过改变Fe_(2)O_(3)前驱体溶液浓度来改变异质结复合材料中Fe_(2)O_(3)组分的含量。结果表明,Fe_(2)O_(3)纳米棒覆盖在呈网状结构的Co_(3)O_(4)薄膜上,随着Fe_(2)O_(3)前驱体溶液浓度即Fe_(2)O_(3)组分含量的增加,Co_(3)O_(4)/Fe_(2)O_(3)异质结复合材料对紫外光的响应逐渐增强,当Fe_(2)O_(3)前驱体溶液浓度为0.015mol/L时,异质结复合材料有着很好的光电稳定性,并表现出较高的响应率(12.5mA/W)和探测率(4.4×10^(10)Jones)。

Effect of MoSi_2 content on dielectric and mechanical properties of MoSi_2/Al_2O_3 composite coatings

Molybdenum disilicide （MoSi2） sheath and aluminum oxide （Al2O3） core blended powders were fabricated by spray drying. A derived coating material was produced for the application as microwave absorbers using the as prepared powders by atmospheric plasma spray （APS） technology. The effects of MoSi2/Al2O3 mass ratio on the dielectric and physical mechanical properties of the composite coatings were investigated. When the MoSi2 content of the composites increases from 0 to 45%, the flexure strength and fracture toughness improve from 198 to 324 MPa and 3.05 to 4.82 MPa-m1/2 then decline to 310 MPa and 4.67 MPa-m1/2, respectively. The dielectric loss tangent increases with increasing MoSi2 content, and the real part of permittivity decreases conversely over the frequency range of 8.2-12.4 GHz. These effects are due to the agglomeration of early molten MoSi2 particles and the increase of the electrical conductivity with increasing MoSi2 content.

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.

Al_(2)O_(3)/SiO_(2)/ZrO_(2)三元复合气凝胶材料的制备及性能研究

以六水合氯化铝(AlCl_(3)·6H_(2)O)、正硅酸乙酯(TEOS)和八水合氧氯化锆(ZrOCl_(2)·8H_(2)O)为混合前驱体,以环氧丙烷(PO)作为凝胶网络诱导剂,乙醇和水作为溶剂,采用溶胶-凝胶工艺和二氧化碳超临界干燥技术制备出了Al_(2)O_(3)-SiO_(2)-ZrO_(2)三元复合气凝胶。研究了不同PO添加量、醇水体积比和Al/Si/Zr摩尔比对其性能和结构的影响,采用扫描电镜、比表面积分析仪和多功能粉体物理特性测试仪对气凝胶的凝胶形态、微观形貌及孔结构进行表征。结果表明:当PO添加量为88mL,醇水体积比为8∶9,Al/Si/Zr摩尔比为12∶3∶1和12∶4∶1时制备出的气凝胶结构性能良好,且凝胶时间在较合适的范围内,具有较低的密度为0.125g/cm^(3)和0.143g/cm^(3),较高的比表面积为683.14m^(2)/g和684.56m^(2)/g。

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 %.

Influence of current density on nano-Al_2O_3/Ni+Co bionic gradient composite coatings by electrodeposition

Metal and nano-ceramic nanocomposite coatings were prepared on the gray cast iron surface by the electrodeposition method. The Ni-Co was used as the metal matrix,and nano-Al2O3 was chosen as the second-phase particulates. To avoid poor inter-face bonding and stress distribution,the gradient structure of biology materials was found as the model and therefore the gradient composite coating was prepared. The morphology of the composite coatings was flatter and the microstructure was denser than that of pure Ni-Co coatings. The composite coatings were prepared by different current densities,and the 2-D and 3-D morphologies of the surface coatings were observed. The result indicated that the 2-D structure became rougher and the 3-D surface density of apices became less when the current density was increased. The content of nanoparticulates reached a maximum value at the current density of 40mA·cm^-2,at the same time the properties including microhardness and wear-resistance were analyzed. The microhardness reached a maximum value and the wear volume was also less at the current density of 40mA·cm^-2. The reason was that nano-Al2O3 particles caused dispersive strengthening and grain refining.

基于Fe_(2)O_(3)的片状α-Al_(2)O_(3)包覆研究

首先以片状α-Al_(2)O_(3)为基质,以FeCl_(3)为铁源,采用液相沉积法制备了Fe_(2)O_(3)/α-Al_(2)O_(3)珠光颜料,并借助SEM、EDS、XRD等手段对制备的珠光颜料进行性能表征,考察了反应pH值、反应温度、铁盐浓度、添加剂用量等因素对片状α-Al_(2)O_(3)包覆率的影响,得到了制备铁系包覆片状α-Al_(2)O_(3)的最佳制备工艺参数,同时了解了各参数影响包覆率的主次顺序,并在此基础上着重探讨了六偏磷酸钠对包覆率产生影响的机理。结果表明:影响包覆率的主次顺序依次为反应pH值、反应温度、添加剂用量、铁盐浓度;在最优的工艺参数下制备出来Fe_(2)O_(3)/α-Al_(2)O_(3)的包覆率为20.93%;样品的表面形貌光滑平整且包覆完整。

Laser Cladding Al-Si/Al_2O_3-TiO_2 Composite Coatings on AZ31B Magnesium Alloy

To improve the wear resistance and corrosion resistance of magnesium alloys, a 5 kW continuous wave CO2 laser was used to investigate the laser surface cladding on AZ31 B magnesium alloys with Al-Si/Al2O3-TiO2 composite powders. A detailed microstructure, chemical composition, and phase analysis of the composite coatings were studied by scanning electron microscopy （SEM）, energy dispersive spectroscopy （EDS）, and X-ray diffraction （XRD）. The laser cladding shows good metallurgical bonding with the substrate. The composite coatings are composed of Mgl7Al12, Al3Mg2, Mg2Si, Al2O3, and TiO2 phases. Compared to the average microhardness （50HV0.05） of the AZ3 1 B substrate, that of the composite coatings （230HV0.05） is improved significantly. The wear resistances of the surface layers were evaluated in detail. The results demonstrate that the wear resistances of the laser surface-modified samples are considerably improved compared to the substrate. It also show that the composite coatings exhibit better corrosion resistance than that of the substrate in 3.5wt% NaCI solution.