Microstructure and Corrosion Resistance of Cr7C3/γ-Fe Ceramal Composite Coating Fabricated by Plasma Cladding

A new type in situ Cr7C3/γ-Fe ceramal composite coating was fabricated on substrate of hardened and tempered grade C steel by plasma cladding with Fe-Cr-C alloy powders. The ceramal composite coating has a rapidly solidified microstructure consisting of primary Cr7C3/γ- and the Cr7C3/γ-Fe eutectics, and is metallurgically bonded to the degree C steel substrate. The corrosion resistances of the coating in water solutions of 0.5 mol/L H2SO4 and 3.5% NaCl were evaluated utilizing the electrochemical polarization corrosion-test method. Because of the inherent excellent corrosion-resisting properties of the constituting phase and the rapidly solidified homogeneous microstructure, the plasma clad ceramal composite coating exhibits excellent corrosion resistance in the water solutions of 0.5 mol/L H2SO4 and 3.5% NaCl.     

Preparation and properties of the Ni-Al/Fe-Al intermetallics composite coating produced by plasma cladding

A novel approach to produce an intermetallic composite coating was put forward. The microstructure, microhardness, and dry-sliding wear behavior of the composite coating were investigated using X-ray diffraction (XRD), scanning electron microscopy (SEM), energy dispersive spectrum (EDS) analysis, microhardness test, and ball-on-disc wear experiment. XRD results indicate that some new phases FeAl, Fe_0.23Ni_0.77Al, and Ni₃Al exit in the composite coating with the Al₂O₃ addition. SEM results show that the coating is bonded with carbon steel metallurgically and exhibits typical rapid directional solidification structures. The Cr₇C₃ carbide and intermetallic compounds co-reinforced composite coating has a high average hardness and exhibits an excellent wear resistance under dry-sliding wear test compared with the Cr₇C₃ carbide-reinforced composite coating. The formation mechanism of the intermetallic compounds was also investigated.     

Microstructure and mechanical properties of Ni-based composite coatings reinforced by in situ synthesized TiB2 + TiC by laser cladding

A Ni-based composite coating reinforced by in situ synthesized TiB₂ and TiC particles was fabricated on Ti6Al4V by laser cladding. An attempt was made to correlate the thermodynamic predictions and experimental observation. The microstructure and the microhardness profile across the coating were investigated by means of X-ray diffraction (XRD), scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), and a hardness tester. It is found that the coating mainly consists of a large number of reinforcements (black blocky TiB₂, flower-like or equiaxial TiC, and fine acicular CrB) and the γ matrix. The hardness of TiB₂, TiC, and CrB reinforcements is much higher than that of the γ matrix. The dispersive distribution of such high hardness reinforcements causes the increase in hardness of the whole coating. The average value of the hardness is approximately Hv_0.2 700 in the coating. The hardness of the coating is obviously higher than that of the substrate due to the dispersion strengthening of reinforcements.     

铜合金表面激光诱导原位反应制备Ni基合金涂层

采用含有定量纳米铝粉的Ni基新合金粉为涂层原材料,利用激光诱导原位反应在Cu-Cr合金表面制备陶瓷相增强Ni基合金涂层.研究了样品涂层的结构和机理.结果表明:在优化的激光诱导原位制备工艺参数条件下,涂层与铜基体之间形成了由涂层元素和基体元素组成且晶粒细小的结合界面结构;纳米铝粉能够提供更多能量促进铜合金表面涂层的形成;涂层中原位生成了直径小于10μm的陶瓷颗粒增强的复合涂层组织结构;涂层成分中纳米铝粉和稀土氧化物的加入,减少了裂纹和孔洞缺陷的形成;表面涂层的平均显微硬度由铜合金基体表面的85 HV提高到了340 HV.     

稀土含量对激光表面熔铸涂层开裂敏感性的影响

本文研究了高温镍基铸造合金ＨＨ３３上稀土含量对激光表面熔铸钻基合金涂层开裂敏感性的影响。结果表明，不加稀土时，基体中出现了微裂纹；稀土含量为０．５％Ｗｔ时，裂纹由基体向涂层扩展；稀土含量为２％Ｗｔ时，裂纹进一步扩展直至贯穿涂层。此时，裂纹的长度和宽度最大，裂纹周围的组织粗大；当稀土含量为３％Ｗｔ时，涂层及基体无裂纹出现，且涂层组织细小、均匀．涂层显微硬度值较未加稀土时低。     

结晶器铜板上激光熔覆镍基合金

利用5kWCO2激光器在结晶器铜板上熔覆镍基合金,并研究了熔覆层组织性能.选用与结晶器铜板成分相近的镍基自熔合金粉末Nickel-baseHMSP1015-00(Ni1015),利用等离子喷涂技术在铜板上预涂Ni1015合金,然后再采用高能量密度激光进行重熔.借助OM,SEM和显微硬度计分析测定了涂层的显微组织形貌、组织成分和截面显微硬度分布情况.所得到的熔覆层表面平整均匀,与基体为冶金结合;熔覆层平均显微硬度为270HV0.05,是基体的3.2倍(85HV0.05).确定出本实验合适的激光熔覆工艺参数功率密度为1.58×102kW/cm2时,扫描速度为3~4m/min.     

氩弧熔敷原位自生WC复合涂层组织及耐磨性

为提高采煤机中截齿的耐磨性能,利用氩弧熔敷技术,在35CrMnSi钢表面制备WC增强Ni基复合涂层。利用OM、SEM、XRD和EDS分析复合涂层的显微组织,采用显微维氏硬度仪测试复合涂层的显微硬度,并测试涂层在室温磨损条件下的耐磨性能。结果表明：氩弧熔敷涂层组织均匀致密,熔敷涂层与基体呈冶金结合,主要由WC、W：C、T—Ni、（Fe,Cr）23,C6等物相组成;WC颗粒呈弥散分布,颗粒尺寸为1txm;熔敷涂层可以改善基体的表面硬度,最高显微硬度可达12．6GPa;熔敷涂层在室温冲击磨粒磨损实验条件下,具有优异的耐磨性,磨损机制主要是磨粒磨桶．其耐磨性较35CrMnSi基体提高近12倍。     

Hydrothermal growth of Ni-based coatings on copper substrates

Ni-based coatings were deposited on copper substrates by a hydrothermal approach. The results showed that a Ni-based cellular microstructure was bridged by "fiber-like" products. A high microhardness of Hv 856 was achieved after 400℃ heat treatment, which is nine times that of copper substrates (Hv 95). Nucleation, growth, and fusion of Ni atoms along the linear direction, induced by a linear-type citrate-metal structural "molecule template", led to in-situ growth of Ni-based fibers between cellular microspheres. After 400℃ heat treatment, the precipitation of NiP and Ni₃P hard phases contributed to the high microhardness of Ni-based coatings.     

Microstructure and mechanical properties of twin-wire arc sprayed Ni-Al composite coatings on 6061-T6 aluminum alloy sheet

We have systematically studied the microstructure and mechanical properties of Ni-5wt%Al and Ni-20wt%Al composite coatings fabricated on 6061-T6 aluminum alloy sheet by twin-wire arc spraying under different experimental conditions. The abrasive wear behavior and interface diffusion behavior of the composite coatings were evaluated by dry/wet rubber wheel abrasive wear tests and heat treatment, respectively. Experimental results indicate that the composite coatings exhibit features of adhesive wear. Besides, the Vickers microhardness of NiAl and Ni₃Al intermetallic compounds is relatively larger than that of the substrate, which is beneficial for enhancing the wear resistance. With the increase of annealing temperature and time, the interface diffusion area between the Ni-Al coating and the substrate gradually expands with the formation of NiAl₃ and Ni₂Al₃ phases, and is controlled by diffusion of aluminum atoms. The grain growth exponent n of diffusion kinetics of the Ni-Al coating, calculated via a high-temperature diffusion model at 400, 480, and 550℃, is between 0.28 and 0.38. This satisfies the cubic law, which is consistent with the general theoretical relationship of high-temperature diffusion.     

45#钢表面Ni-P-nano-SiC复合化学镀层的制备

在优化设计的化学镀基础镀液中通过添加不同含量的纳米SiC颗粒,研究在45#钢表面制备具有纳米SiC颗粒增强的复合镀层及形成机理.利用SEM,XRD和显微硬度计等方法对实验样品的组织结构、形貌、显微硬度及其镀层形成机理进行了研究,结果表明:实验制备的Ni-P,Ni-P-SiC镀层镀态时硬度分别为572 HV,649 HV,热处理后其表面硬度在400℃时达到最大值1 045 HV和1 341 HV.纳米SiC颗粒在镀液中不参与化学反应,只是与化学反应所产生的Ni和P共同沉积在镀层中起到了复合强化的作用.Ni-P-nano-SiC镀层的生长机理是按层状方式生长,生长方向垂直于钢基体表面.纳米SiC提...     

复合电刷镀装置和工艺研究

研究了电刷镀多层复合镀层工艺的装置与技术条件 ,对电刷镀镀笔进行必要的改进 ,探索了利用改进的电刷镀技术制备性能优良的多层Ni Cr2 O3 、Ni SiC等复合镀层在工艺上的可行性 同时 ,还研究了多层复合镀层的强度、组织及显微硬度等性能 结果表明 ,多层复合镀层具有良好的结合强度 ,细小的结晶晶粒和较高的显微硬度 本研究的成果可用于修复磨损的机械零件和对零部件进行表面强化 ,因而具有理论和实际意义     

Effect of La2O3 on microstructure, mechanical and tribological properties of Ni-W coatings

In this paper, a Ni-W-La2O3 composite coating was prepared by the electrodeposition method. Microhardness tester and environmental scanning electron microscope equipped energy dispersive spectroscopy were employed to investigate the microhardness and the surface morphology of the composite coatings respectively, and the high temperature friction behavior and corrosion resistance of the coatings against molten glass were investigated by using a high temperature tribometer. The results show that La2O3 can refine the microstructure effectively, and make the element distribution uniform, which leads to the increase of average microhardness. La2O3 particulates can reduce the friction coefficient between the composite coating and glass during the sliding process at about 973 K largely, and the corrosion resistance of the La2O3 added Ni-W coatings is effectively improved compared with that of the non-added one, furthermore the mechanism of friction-reducing and anti-corrosion is also discussed.     

TC4合金氩弧熔覆TiN复合涂层的组织及耐磨性

为提高钛合金表面性能,以TiN粉和Ti粉为原料,利用氩弧熔覆技术,在TC4合金表面成功制备出TiN增强Ti基复合涂层。采用扫描电镜、X射线衍射仪分析了熔覆涂层的显微组织和物相组成;利用显微硬度仪、摩擦磨损试验机测试了复合涂层的显微硬度和室温干滑动磨损条件下的耐磨性能。结果表明:氩弧熔覆涂层组织均匀致密,熔覆层与基体呈冶金结合,熔覆涂层主要由TiN棒状树枝晶和TiN颗粒组成,复合涂层明显改善了TC4合金的表面硬度,涂层的最高显微硬度可达9.5 GPa;复合涂层在室温干滑动磨损实验条件下具有优异的耐磨性,磨损机制主要是磨粒磨损,其耐磨性较TC4合金基体提高近9倍。     

Effects of crystallization on corrosion behaviours of a Ni-based bulk metallic glass

The effects of microstructure change on the corrosion behaviours of Ni₅₅Nb₂₀Ti₁₀Zr₈Co₇ bulk glass-forming alloy were investigated in 1 mol/L HCl and 0.5 mol/L H₂SO₄ solutions. Different microstructures of the Ni-based alloy were achieved by annealing the bulk glassy rod prepared by copper mould casting. The microstructure, grain size, grain distribution, and phase composition were characterized. Electrochemical behaviours of the Ni-based alloy were revealed by static immersion and anodic potentiodynamic polarization tests. It is indicated that the corrosion behaviours of the Ni-based bulk glass-forming alloy are related to its microstructures, while the fully crystallized alloy exhibits a relatively lower corrosion resistance than those of the amorphous states.     

Microstructure and oxidation behavior of carbon fiber reinforced SiC composite (Cf/SiC) with Mo–57Si–10B oxidation protection coating

Mo–57Si–10B (at.%) coating was prepared by the spark plasma sintering (SPS) technique on a 2D woven C_f/SiC composite, and the oxidation behavior of the bare and the coated C_f/SiC samples at 1300 ?°C were investigated. The coating was composed of a fine MoSi₂/MoB/SiO₂/Mo₂B₅ out layer and the inner SiO₂ interface layer. The mass gain percentage was approximately 0.25% after oxidation at 1300 ?°C for 100 ?h. The coated C_f/SiC substrate was effectively protected, owing to the rapid formation of the dense and protective borosilicate layer on the coating, the excellent microstructure stability of the coating and the inner SiO₂ interface layer.     

9SiCr工具钢表面激光熔覆合金的组织与性能

使用CO2激光器对9SiCr工具钢表面进行Co基和Ni基合金熔覆处理,X射线衍射仪、扫描电子显微镜分析了激光合金熔覆层的相组成和显微组织;显微硬度计对合金熔覆区的显微硬度进行测量·结果表明,合金熔覆层在微观结构上存在熔覆区、结合区和基体热影响3个区域·Co基合金熔覆区相组成为奥氏体+铁素体+碳化物,Ni基合金熔覆区相组成为奥氏体+铁素体+碳化物+金属间化合物·Ni基合金熔覆层的显微硬度约为Co基的2倍     

Microstructure and stress rupture properties of polycrystal and directionally solidified castings of nickel-based superalloys

A new directionally solidified Ni-based superalloy DZ24, which is a modification of K24 alloy without rare and expensive elemental additions, such as Ta and Hf, was studied in this paper. The microstructure and stress rupture properties of conventionally cast and directionally solidified superalloys were comparatively analyzed. It is indicated that the microstructure of K24 alloy is composed of γ, γ′, γ/γ′ eutectics and MC carbides. Compared with the microstructure of K24 polycrystalline alloy, γ/γ′ eutectic completely dissolves into the γ matrix, the fine and regular γ′ phase reprecipitates, and MC carbides decompose to M₆C/M₂₃C₆ carbides after heat treatment in DZ24 alloy. The rupture life of DZ24 alloy is two times longer than that of K24 alloy. The more homogeneous the size of γ′ precipitate, the longer the rupture life. The coarsening and rafting behaviors of γ′ precipitates are observed in DZ24 alloy after the stress-rupture test.     

碳钢表面激光熔覆镍基合金涂层及其高温磨损行为

应用激光熔覆法,采用镍基NiCrSiB合金粉末,在20#碳钢表面制备了熔覆涂层.利用X射线衍射仪分析熔覆层的相组成;利用摩擦磨损实验机对熔覆层的高温耐磨性能进行了研究;利用扫描电镜观察熔覆层形貌.结果表明:所制得熔覆层组织均一、致密,与基体形成了良好的冶金结合.镍基合金激光熔覆层硬度提高到基体的4倍;高温磨损率约为基体的1/3.熔覆层耐磨能力增强的主要原因在于熔覆层与基体良好的冶金结合,固溶强化和硼化物、硼碳化物等析出相的强化作用.     

宽带激光熔覆铸造WCp /Ni基合金复合涂层结合界面组织特征

研究了宽带激光熔覆铸造WCp /Ni基合金复合涂层结合界面组织特征。结果表明结合界面微区组织特征为细小的共晶体组织、过渡层组织以及白亮带组织。白亮带及过渡层中主要含有Fe ,Cr,Ni,Si等元素。白亮带主要是单相的γ - (Fe ,Cr ,Ni,Si)固溶体组织。从熔覆区→过渡层→白亮带的平均显微硬度值呈梯度分布。复合涂层结合界面主要元素、微观组织结构和显微硬度呈梯度分布的特征 ,提高了涂层与基材之间的匹配性 ,缓解应力集中 ,避免裂纹形成 ,实现了基材与涂层良好的冶金结合。     

堆焊Mo-Cr-Fe-B合金覆层的组织及性能研究

采用自制Mo-Cr-Fe-B系药芯焊丝通过堆焊法在Q235钢基体表面制备覆层。借助光学显微镜、SEM、XRD、EDS、显微硬度计、磨损试验机等对覆层及结合界面的组织结构、物相、硬度分布及耐磨性进行了表征与分析,并研究了覆层堆焊成型的反应过程。结果表明,覆层主要由Mo_2FeB_2、M_3B_2(M:Mo、Cr、Fe)、Fe_2B、Fe(Cr、Mo)等相组成,覆层与钢基体结合良好,在覆层-钢基体界面结合处有元素的扩散,覆层硬度最高可达980HV0.5且耐磨性良好。