2024铝合金表面化学镀镍工艺研究

通过正交实验确定了2024铝合金表面化学镀镍合金层的镀液组成,并通过扫描电镜对镀层的表面形貌进行了观察,通过交流阻抗对镀层在3.5%NaCl溶液的耐蚀性进行了测试。实验结果表明,采用本溶液组成和工艺可以制备表面均匀平整、致密的Ni-P合金层,镀层与基体结合良好。同时,镀层的显微硬度约是基体的8.5倍,耐蚀性得到明显改善,具有良好的工业应用前景。     

SiC nanowire-toughened SiC-MoSi2-CrSi2 oxidation protective coating for carbon/carbon composites

To prevent carbon/carbon (C/C) composites from oxidation, a dense SiC nanowire-toughened SiC-MoSi₂-CrSi₂ multiphase coating was prepared by the two-step technique composed of chemical vapor deposition (CVD) and pack cementation. The coatings were characterized by scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS) and X-ray diffraction (XRD). SiC nanowires could decrease the dimension of cracks and improve the oxidation and thermal shock resistance of SiC-MoSi₂-CrSi₂ multiphase coating. Oxidation test shows that, after introducing SiC nanowires, the weight loss of the coated sample can be reduced from 1.06% to 0.64% after oxidation at 1773 K for 155 h and decreased from 6.92% to 3.42% after thermal cycling between 1773 K and room temperature for 30 times.     

TiO2粉体对镁合金微弧氧化陶瓷膜性能的影响

在已优化的Na2SiO4-Na3PO4复合体系溶液中加入TiO2粉对AZ91D镁合金进行了微弧氧化处理。用EDS、SEM、XRD分析了加TiO2粉对陶瓷膜的表面形貌和相成分的影响。结果表明,加入TiO2粉体后陶瓷膜孔洞减少,且疏松层变得密实;膜层相成分增加了钛氧化物。加入TiO2粉体后陶瓷膜的耐蚀性有提高。膜层具有光催化性能。     

等离子复合处理制备光催化N掺杂TiO2薄膜（英文）

通过等离子合金化技术在不锈钢表面制备TiN薄膜,然后对TiN薄膜进行热氧化得到N掺杂TiO2薄膜。同时制备 TiO2薄膜作为对比研究。利用X射线衍射(XRD)、X射线光电子能谱(XPS)、扫描电子显微镜(SEM)及紫外-可见分光光度仪(UV-Vis)对得到的薄膜进行表征。XRD测试结果表明:经过450 °C氧化处理的薄膜中存在锐钛矿晶型的TiO2。经热氧化后薄膜表面均匀分布着尺寸接近的微小凸起物。TiO2和N掺杂TiO2的带隙分别为3.25eV和3.08eV。可见光下薄膜催化剂降解亚甲基蓝溶液的实验结果表明:N 掺杂TiO2薄膜比未掺杂TiO2薄膜的光催化效率明显高,可见光照射150min后对亚甲基蓝溶液的最终降解率为20%。     

Microwave ECR plasma CVD of cubic Y2O3 coatings and their characterization

Yttrium oxide (Y₂O₃) thin films are deposited by microwave electron cyclotron resonance (ECR) plasma assisted metal organic chemical vapour deposition (MOCVD) process at a substrate temperature of 350 °C using indigenously developed metal organic precursors (2,2,6,6-tetra methyl-3,5-heptane dionate) yttrium, commonly known as Y(thd)₃ synthesized by ultrasound method. The deposited coatings are characterized by X-ray photoelectron spectroscopy, glancing angle X-ray diffraction, scanning electron microscopy, EDS and infrared spectroscopy. The characterization results indicate that it is possible to deposit non-porous coatings with excellent uniformity of a single phase cubic Y₂O₃ on various substrates by this process at reasonably low substrate temperature that is desirable in various manufacturing processes.     

不同纳米WS2含量Ni-P-Ti N-WS_(2)复合化学镀层的制备及其摩擦学性能EI北大核心CSCD

Ni-P-TiN化学复合镀层具有比Ni-P镀层更高的硬度和耐磨性,但其表面粗糙度大,与对偶件之间的摩擦因数高,应用潜力受到限制。通过在化学镀液中添加不同用量的纳米WS_(2)颗粒和固定用量的TiN颗粒,在低碳钢表面制备Ni-P-TiN-WS_(2)复合镀层。采用X射线能谱仪(EDS)、扫描电子显微镜(SEM)和X射线衍射仪(XRD)对镀层的化学成分(质量分数)、表面形貌及微观结构进行表征,并利用球盘式摩擦磨损试验机测试复合镀层的摩擦磨损性能。结果表明:纳米WS_(2)颗粒与纳米TiN颗粒的共沉积可使镀层表面更加致密、平整。随着镀液中纳米WS_(2)用量的增加,复合镀层的硬度先减小后增大,与氮化硅陶瓷球的摩擦因数则先升后降,磨损率显著下降,耐磨性增强。镀液中纳米WS_(2)粉末的用量为2.5 g/L时复合镀层的摩擦学性能最佳。纳米WS_(2)颗粒的加入及用量优化可显著改善复合镀层的综合性能,可为发展高耐磨低摩擦因数的先进涂层提供借鉴。     

OXIDATION RESISTANCE OF NANOCRYSTAL ODS ALUMINIDE COATINGS PRODUCED BY PACK ALUMINIZING PROCESS ASSISTED BY BALL PEENING

Nanocrystal ODS （oxide dispersion strengthening） aluminide coatings were produced on a stainless steel and nickel-based superalloy by the pock aluminizing process assisted by ball peening, Pure Al powders and 1% of ultra-fine Y2O3 powders were mixed by ball milling. The ultra-fine Y2O3 powders were dispersed in Al particles. Ball peening welded the Al particles onto the substrate and accelerated the formation of aluminide coating. Nanocrystal ODS aluminide coatings were produced by the outward growth at a much low temperature （below 600℃） in a short treatment time. The effects of the operation temperature and treatment time on the formation of the coatings were analyzed. SEM （scanning electron microscope）, AFM （atomic force microscope）, EDS （energy dispersive X-ray spectroscopy）, XRF （X-ray fluorescence spectrometer） and XRD （X-ray diffraction） methods were applied to investigate the microstructure of the coatings. High-temperature oxidation tests were carried out to evaluate the oxidation resistance of the ODS aluminide coatings.     

Annealing temperature effect on the corrosion parameters of autocatalytically produced Ni-P and Ni-P-Al2O3 coatings in artificial seawater

Ni-P and Ni-P-Al₂O₃ amorphous alloy coatings with 9.3 and 8.3 wt.% P respectively were obtained by autocatalytic deposition at 90 °C on carbon steel substrates. The effect of annealing temperature (100, 200, 300, 400 and 500 °C) upon the corrosion parameters of the coatings in artificial seawater with pH 5.0 and 8.1 at room temperature was evaluated by potentiodynamic polarisation and electrochemical impedance spectroscopy. It was found that deposits annealed at 400 and 500 °C presented an increase of the charge transfer resistance and negligible changes on samples annealed at lower temperature. Polarisation tests showed a charge transfer controlled anodic kinetics on both Ni-P and Ni-P-Al₂O₃ deposits and diffusion controlled cathodic reaction in artificial seawater at pH 5.0 and 8.1. The coatings did not present passive behaviour in the electrolytes and impedance measurements showed a single time constant for all cases with the lowest double layer capacitance (C_dl) for samples annealed at 400 and 500 °C. The best corrosion parameters were observed on Ni-P and Ni-P-Al₂O₃ coatings annealed at temperatures higher than 400 °C, which is the temperature where crystallisation of this kind of coatings takes place.     

Microstructure and tribological properties of laser clad Ti2Ni3Si/NiTi intermetallic coatings

Wear resistant Ti₂Ni₃Si/NiTi full intermetallic composite coatings with a microstructure consisting of ternary metal silicide Ti₂Ni₃Si primary dendrites and interdendritic Ti₂Ni₃Si/NiTi eutectic were fabricated on a substrate of 0.2%C low carbon steel by the laser cladding process using Ti-Ni-Si alloy powders as the precursor materials. Microstructure of the coatings was characterized by optical microscopy (OM), scanning electron microscopy (SEM), X-ray diffraction (XRD) and energy dispersive X-ray analysis (EDS). Wear resistance of the laser clad Ti₂Ni₃Si/NiTi intermetallic coatings was evaluated under dry sliding wear test conditions at room temperature. Results indicate that the Ti₂Ni₃Si/NiTi intermetallic coatings have excellent abrasive and adhesive wear resistance under dry sliding wear test conditions because of the unique combination of high yield strength and toughness of the intermetallic compound NiTi and the high hardness, strong covalent dominant atomic bonds and possible strong hardness anomaly of the ternary metal silicide Ti₂Ni₃Si with MgZn₂ type Laves crystal structure.     

Preparation and characterization of Ni-P-nanoTiN electroless composite coatings

Ni-P-nanoTiN composite coatings were prepared successfully by electroless plating technique on AZ31 magnesium alloys. The composition, morphology, structure and phase transformation behaviour of the composite coatings were characterized respectively by using of scanning electron microscope (SEM), energy dispersive spectrometer (EDS) and X-ray diffractometer (XRD). The micro-hardness and wear resistance of the nano composite coatings, both in as-deposited and heat treated states, were investigated. The results demonstrated that the composite coatings, which contained nano TiN particles, exhibited much better properties in hardness and wear resistance than the conventional Ni-P coatings and original AZ31 magnesium alloys. These enhancements of properties are attributed to the nano TiN particles uniformly distributed in the Ni-P matrix.     

ZK60镁合金微弧氧化双电解液的优化及膜层特性(英文)

在NaAlO2和Na3PO4组成的双电解液体系中对ZK60镁合金进行微弧氧化处理,通过单因素实验制备出致密、平整、耐腐蚀的涂层。采用XRD、SEM和EDS研究膜层的显微组织,并在3.5%NaCl溶液中进行静态质量损失实验,测试膜层的耐腐蚀性能。分析讨论电解液中各组元浓度对微弧氧化过程中电压—时间曲线和膜层特性的影响。结果表明:主成膜剂NaAlO2、Na3PO4及辅助添加剂NaOH、NaB4O7和C6H5Na3O7对微弧氧化过程和膜层特性有不同的影响,单变量实验优化得到的双电解液成分为17.5g/LNaAlO2,5g/LNa3PO4,5g/LNaOH,3g/LNaB4O7和4.2g/LC6H5Na3O7。     

High Temperature Oxidation of FGH96 P/M Superalloy

High temperature oxidation behaviors of FGH96 P/M superalloy have been studied in air at temperatures ranging from 600 to 1000℃. By means of isothermal oxidation testing,X-ray diffraction,SEM(scanning electron microscopy),and EDS(energy dispersive X-ray spectroscopy) analyses,the oxidation kinetics as well as the composition and morphology of scales were investigated. Thermodynamic calculations were used to explain the oxidation mechanism. The results showed that as the oxidation temperature increased,the oxidation rate,the scale thickness,and scale spallation increased. FGH96 P/M superalloy exhibits good oxidation resistance at temperature below 800℃. The oxidation kinetics follows an approximately parabolic rate law,and the oxide layer was mainly composed of Cr2O3,TiO2,and a little amount of NiCr2O4. The oxidation is controlled by the transmission of chromium,titanium,and oxygen through the oxide scale.     

热镀锌表面镧盐转化膜生长机理的研究

在常规稀土镧盐钝化液中添加以柠檬酸添加剂,从而在热镀锌层表面获得镧盐转化膜.采用中性盐雾实验(NSS)分析膜层耐蚀性能,确定最佳成膜时间范围.通过扫描电镜(SEM)、能谱仪(EDS)、X射线光电子能谱(XPS)、红外光谱(IR)分析了膜层的结构、微观形貌和化学成分.结果表明,转化膜耐蚀性能与铬酸盐钝化膜相当;膜层微观上存在裂纹,且裂纹随着成膜时间的延长而变宽;膜层主要由柠檬酸镧和La(OH)_3等组成;转化膜的生长过程中,前期以柠檬酸镧吸附膜的沉积为主,中期La(OH)_3与柠檬酸镧相互渗透沉积,后期La(OH)_3沉积逐渐占据主导.     

纳米SiO2粒子/镍基复合镀层腐蚀行为

将纳米SiO2粒子通过超声分散引入到化学镀Ni-P合金镀液中,在碳钢基体表面共沉积得到纳米SiO2粒子/镍基复合镀层。通过X射线衍射(XRD)、扫描电镜(SEM)对Ni-P镀层和纳米SiO2粒子/镍基镀层的微观结构形貌进行了分析;采用失重法和电化学方法研究了纳米SiO2粒子/镍基复合镀层在3.5%NaCl溶液中的腐蚀行为。结果表明,纳米SiO2粒子/镍基复合镀层仍是非晶态,纳米SiO2粒子的加入提高了镀层的致密性,提高了镀层的耐腐蚀性能。     

机械镀Zn-RE复合镀层的结构

以机械镀方法制备了Zn-RE复合镀层,采用SEM观察了镀层的结构,采用XRF、XPS分析了镀层表面的化学组成和镀层的表面化学状态,采用XRD分析了镀层的物相组成。结果表明,Zn-RE复合机械镀层主要由锌粉颗粒组成,稀土有利于镀层中的锌粉颗粒发生变形。镀层中主要含有Zn、Sn、Fe、La、Ce元素,其中La、Ce含量很低;Zn、Sn、Fe以单质态存在,La以La2O3存在。镀层表面主要由Zn、Sn、La、O组成,Zn以单质态存在,Sn以单质态和氧化态共存,La以La2O3存在。Zn-RE复合镀层形层过程中所添加混合稀土中的La未发生化学位态的变化。     

Effect on Corrosion Resistance of Ce-Rich-Sealed Ni-P Coatings on Cf/Al Composite Surface

In this study, Ni-P coatings and sealing of the coatings by Ce-rich solution on Cf/Al composite surface for enhanced corrosion resistance are investigated. The corrosion resistance of uncoating sample in 3.5 wt.% NaCl solution was investigated and a comparison with Ni-P and Ce-sealed Ni-P coatings is given. Effect of Ce-sealing on Ni-P coating is discussed. The results of electrochemical measurements of corrosion performance of Cf/Al composites show that sealing of Ni-P coatings with Ce-rich solution can improve the corrosion resistance. The Ce-rich-sealed Ni-P coating has higher corrosion resistance than the coating without Ce, and the electroless plated Ni-P coating on composite surface has higher corrosion resistance than the bare sample, as evidenced by EIS and potentiodynamic polarization measurements. The microstructure of the Cf/Al composites and the two kinds of coatings (i.e., Ni-P coating and Ce-sealed Ni-P coating) were examined by scanning electron microscopy, energy dispersive spectroscopy, and transmission electron microscopy. The Ce-sealed Ni-P coatings on Cf/Al composite surface have a total thickness of ~11 μm of which 10 μm is the thickness of the Ni-P coating and ~1 μm is the thickness of the Ce-rich sealing. It shows that the selected area electron diffraction ring pattern of Ce-rich sealing on Ni-P plated composite is consistent with Ce₆O₁₁ or CeO₂. X-ray photoelectron spectroscopy results show that Ce⁴⁺ was the dominant oxidation state for Ce-rich sealing on Ni-P plated composite. The Ce-sealing treatment on Ni-P coating has improved the corrosion resistance over and above the corrosion resistance offered by the Ni-P mono-coating to the bare substrate.     

镁锂合金表面锌锰磷化膜的制备与性能表征

采用化学转化法在镁锂合金表面制备了外观深灰色、结构均匀致密、耐蚀性能良好的锌锰磷酸盐转化膜,并研究了磷化温度对磷化膜性能的影响。采用扫描电子显微镜(SEM)、能谱(EDS)仪、X射线光电子能谱(XPS)和X射线衍射(XRD)仪对膜层的表面形貌、化学组成及结构进行了表征。采用动电位极化曲线、电化学交流阻抗(EIS)和腐蚀失重实验对磷化膜的耐蚀性进行了研究。结果表明,锌锰磷化膜主要由Zn、Zn3(PO4)2、MnHPO4、Mn3(PO4)2组成。锌锰磷酸化膜起到了保护镁锂合金的作用,提高了镁锂合金的耐蚀性,当磷化温度为45℃时,磷化膜的腐蚀电流密度最低,腐蚀速率最小,耐蚀性能最好。     

Deposition and corrosion resistance of electroless Ni-PCTFE-P nanocomposite coatings

The present work deals with the process of electroless deposition and electrochemical corrosion behavior of nickel-polychlorotrifluoroethylene-phosphorous (Ni-PCTFE-P) nanocomposite coatings. The process of autocatalytic-catalytic reduction of Ni in nickel sulfate and sodium hypophosphate solution with PCTFE suspended particles has been employed for the formation of the electroless Ni-PCTFE-P composite coatings. Surface morphology and composition of the composite coatings are characterized by scanning electron microscopy (SEM), energy dispersive X-ray (EDX) measurements and X-ray diffraction (XRD) analysis. Corrosion behavior of coatings is evaluated using open-circuit potential (E_OCP) measurements, electrochemical impedance spectroscopy (EIS) and polarization techniques in 3.5 wt.% NaCl solution. The study reveals significant shift in corrosion potential towards the noble direction, decrease in corrosion current density, increase in charge transfer resistance and decrease in double‐layer capacitance values with the incorporation of PCTFE particles in the Ni-P matrix. The significant improvement in corrosion resistance observed for Ni-PCTFE-P nanocomposite coatings (25.3 kΩ cm²) compared to Ni-P (16 kΩ cm²) could have resulted from the microstructural differences of pure Ni-P with Ni-PCTFE-P nanocomposite coatings.     

Evaluation of the Corrosion Resistance of Thermal-Spray Coatings Under Oxidant Atmosphere in a Fluid Catalytic-Cracking Unit

The effectiveness of several thermal-spray coatings for improving the corrosion resistance of a low-alloy steel was evaluated at 650°C under two conditions: an oxidizing atmosphere in a fluid catalytic-cracking regenerator of a petrochemical unit and a simulated laboratory atmosphere. The high porosity present in all coatings studied in the present work, inherent to the thermal-spray technique, allowed the penetration of gaseous species from the atmosphere into the substrate, leading to the formation of nonprotective oxides and sulfides, as well as internal oxidation, sulfidation, and nitridation. A protective alumina and/or chromia layer did not form, probably due to the relatively low temperature used in both the real and simulated conditions. Characterization of the phases present in the oxidized layer was carried out by X-ray diffraction (XRD), optical microscopy (OM), and scanning electron microscopy (SEM) with X-ray energy-dispersive analysis (EDS).     

电接触强化对Ni-P/Nano-WC复合刷镀层的微观组织及性能的影响

目的：提高Ni-P/nano-WC复合刷镀层的性能。方法利用电刷镀技术将Ni-P与nano-WC粉末共同沉积在40Cr基体表面形成纳米颗粒增强的复合镀层,再利用电接触技术对Ni-P/nano-WC复合镀层进行二次强化。利用光学显微镜、场发射扫描电子显微镜（FESEM）、X射线衍射分析（XRD）、能谱分析（EDS）和显微硬度测量等手段,分析电接触强化处理对Ni-P/nano-WC复合镀层的影响。同时利用滚动摩擦试验分析电接触强化前后复合镀层耐磨性的变化情况。结果电接触强化处理后, Ni-P/nano-WC复合刷镀层的孔隙和裂纹减少,复合镀层与基体之间的界面在高温和高压的作用下发生焊合。XRD分析显示复合镀层的晶粒细化,镀层的晶粒尺寸由35.35 nm下降至26.28 nm。随着接触电流的加大,复合镀层的硬度也在逐步加大。经过20 kA电流的强化,复合镀层平均硬度由637HV0.1增加到885HV0.1,镀层硬度分布更加均匀;4 h的滚动摩损表明,随着接触电流的加大,试样的质量损失逐步减小,经20 kA接触电流强化后的Ni-P/nano-WC复合镀层质量损失为503 mg,比未经电接触强化的Ni-P/nano-WC复合镀层低40%。结论电接触强化技术能有效改善Ni-P/nano-WC复合镀层的微观组织与性能,将镀层界面由机械结合变为冶金结合,同时提高镀层的耐磨性能。