Mo含量对CoCrFeNiMo高熵合金组织及耐蚀性能的影响

高熵合金由于具有优异的机械性能及耐蚀性能在涂层工业领域备受关注。采用同步送粉激光熔覆技术在Q235钢表面制备了CoCrFeNiMo_x高熵合金涂层,研究了涂层的组织结构和耐蚀性能,并结合第一性原理计算分析了涂层耐蚀机理。研究结果表明：CoCrFeNiMo_0.1、CoCrFeNiMo_0.2高熵合金涂层是由fcc相组成,而CoCrFeNiMo_0.3高熵合金涂层则由fcc相和σ相组成。合金的晶粒主要呈树枝晶,枝晶间富集Cr、Mo元素,枝晶内富集Co、Fe元素。在3.5%(质量分数)NaCl溶液中,CoCrFeNiMo_x高熵合金涂层具有优良的综合耐蚀性能;并且随着Mo元素含量的增加,涂层的腐蚀电位正移,腐蚀电流密度减少,钝化区间变长,阻抗弧半径增大,电极反应阻力增强。通过第一性原理计算证明,涂层较高的耐蚀性能与表面致密的钝化膜形成密切相关。     

铁含量对激光熔覆层微结构及性能的影响

为满足不同支承辊再制造表面硬度需求,利用激光熔覆技术,将添加不同含量纯铁粉的铁基合金粉末材料熔覆到Cr5支承辊钢表面。研究了铁含量对熔覆层微结构及性能的影响。结果表明,所有材料设计成分条件下熔覆层的截面组织差异很小,均为鱼骨状枝晶和网状晶间组织。通过改变添加铁粉的量可以控制熔覆层中枝晶含量。随着合金粉末中铁含量增多,激光熔覆层截面硬度和耐磨性显著下降。添加50%(质量分数)纯铁粉的粉末材料可以制备出硬度约为480HV、耐磨性高于传统淬火工作层的激光熔覆层,可以满足Cr5支承辊再制造需求。     

Laser surface remelting of Cu–Cr–Fe contact material

Abstract

Laser surface remelting/resolidifying treatment on a powder metallurgically manufactured Cu–Cr–Fe contact material was studied. Test results showed that a compact remelting/resolidifying layer was obtained with appropriate laser treatment conditions and a suitable surface absorption coating. After such treatment, the Cu–Cr–Fe microstructure was greatly refined and the Cr phase was uniformly dispersed in the Cu rich matrix with fine spherical or near spherical form. Improved compactness and microstructure of the laser remelted Cu–Cr–Fe material yielded increased hardness (by ~80%), wear resistance, and a reduced friction coefficient compared with the base material. The mechanism of laser strengthening is discussed in relation to the microstructural features of the Cu–Cr–Fe material.     

激光熔覆CoCrFeMnNiMox高熵合金的组织和耐蚀性研究

目的 为了增强钢制结构表面的耐蚀性,研究Mo含量对CoCrFeMnNiMox高熵合金组织与耐蚀性的影响。方法 采用激光熔覆的方式在N80钢上制备CoCrFeMnNiMox（x=0.1、0.2、0.3、0.4、0.5）高熵合金熔覆层,研究Mo含量变化对高熵合金组织、物相与耐蚀性的影响。结果 CoCrFeMnNiMox熔覆试样均由单一的FCC固溶体相组成,随着Mo含量的增加,晶格畸变增大;当Mo的摩尔比超过0.3后,晶粒有长大倾向;Mo的摩尔比为0.5时,表面择优生长晶面由（111）密排晶面转变为（200）非密排晶面。熔覆试样在氯化钠溶液和稀硫酸溶液中的耐蚀性相较N80钢提升明显,其中,CoCrMnFeNiMo0.3的耐蚀性最好,在质量分数为3.5%的氯化钠溶液中其自腐蚀电流密度是N80钢的5%,自腐蚀电位比N80钢提高了1倍;在0.5 mol/L硫酸溶液中,其自腐蚀电流密度是N80钢的31%,钝化区电流密度比N80钢降低了1个数量级。结论 在该高熵合金体系中,随着Mo含量的增加,晶格畸变增大。CoCrMnFeNiMox高熵合金熔覆层可以有效地阻止基体腐蚀的发生。Mo元素在溶液中能够形成MoO3附着在金属表面,从而形成稳定致密的保护层,减少点蚀的发生。CoCrMnFeNiMo0.3熔覆层的耐蚀性最好。     

双相不锈钢2205激光焊接接头组织和性能研究

目的 针对双相不锈钢激光焊接接头两相比例失衡的问题,研究双相不锈钢2205激光焊接接头组织和性能。方法 采用Disk 6002碟片激光器对2205双相不锈钢进行激光焊接,通过在纯氩气保护气中添加体积分数为60%的氮气,向熔池中过渡氮元素,以提高焊缝中的奥氏体含量;采用金相显微镜、电子背散射衍射技术、电子探针X射线显微分析仪、显微硬度仪和上海辰华CHI760E电化学工作站等手段,对激光焊接接头表面组织、元素含量、显微硬度和耐腐蚀性能进行表征和测试。结果 与纯氩气保护焊接接头相比,当在保护气中添加60%（体积分数,下同）的氮气后,奥氏体相体积分数达到39.89%,提升了25.94%,奥氏体中氮元素的质量分数达到0.679%时,氮元素的质量分数提升了0.196%,焊缝中奥氏体显微硬度为307.4HV,铁素体显微硬度为298.9HV,极化曲线腐蚀电流密度升高,阻抗弧半径减小。结论 在保护气中添加60%的氮气后,激光焊接接头中奥氏体的体积分数提升,增加的奥氏体组织以晶内奥氏体为主,并且更多的氮元素进入到奥氏体相中,焊缝中的奥氏体和铁素体硬度略有升高,耐蚀性和钝化膜稳定性有所下降。     

Cr含量对CrMnFeNi系高熵合金腐蚀行为的影响EI北大核心CSCD

利用XRD,SEM/EDS,EBSD,电化学测试等表征手段研究Cr含量对Cr_(x)MnFeNi(x=0.8,1.0,1.2,1.5)高熵合金微观组织与耐蚀性能的影响。结果表明:Cr_(0.8)MnFeNi高熵合金为单相FCC结构,Cr_(x)MnFeNi(x=1.0,1.2,1.5)高熵合金为FCC+BCC双相结构,且BCC相比例随着Cr含量升高而增加。在0.5 mol/L H_(2)SO_(4)溶液中,高熵合金的耐蚀性能随着Cr含量降低而增强,其中,Cr_(0.8)MnFeNi单相高熵合金的耐蚀性能最好,这是因为Cr_(0.8)MnFeNi高熵合金的成分更为均匀。此外,Cr_(x)MnFeNi高熵合金在0.5 mol/L H_(2)SO_(4)溶液中均具有宽泛的钝化区域以及明显的伪钝化区域,表明合金在耐蚀性能上具有较大的研究价值和开发潜力。     

45钢离子氮碳氧三元共渗与QPQ处理对比研究EI北大核心CSCD

盐浴复合(QPQ)技术为公认的能同时提高金属材料耐腐蚀性和耐磨性的表面改性技术,但其推广使用受到环保制约。为开发绿色高效表面改性技术,探索了离子氮碳氧三元共渗(PNCO)技术,并与QPQ技术改性效果进行了对比研究。选择45钢为原材料,分别采用PNCO技术和QPQ技术进行表面改性。利用光学显微镜及扫描电子显微镜、XRD、显微硬度计、摩擦磨损试验机、浸泡腐蚀实验对两种表面处理试样的截面显微组织、物相、表面及截面硬度、耐磨性和耐腐蚀性进行测试和分析。结果表明,在510℃×4 h工艺条件下,PNCO处理获得的化合物层厚度为20.14μm,有效硬化层厚度为59μm,截面最高硬度为760HV_(0.05),磨损率为1.39×10^(-3)g·N^(-1)·m^(-1),腐蚀失重率为0.39%。XRD结果分析表明,PNCO处理后渗层形成了Fe_(x)N化合物和以Fe_(3)O_(4)为主的氧化物相。PNCO和QPQ对比研究发现,两者表层硬度、耐磨性及耐腐蚀性均相近。本研究为绿色高效表面改性技术提供了可行的研究方向。     

金属过渡层类型对非晶碳膜结构性能的影响

采用直流磁控溅射技术制备不同金属过渡层(Cr, Ti, W)的类石墨非晶碳膜(GLC), 研究过渡层类型对非晶碳膜微结构的影响, 并考察其在人工海水中摩擦性能的变化。研究结果表明: Cr/GLC薄膜sp²杂化键含量最高, 沿GLC表面到铬碳界面方向, sp²杂化键含量逐渐增大, Ti过渡层和W过渡层的sp²杂化键含量变化不明显。Cr/GLC薄膜较高的sp²杂化键含量有助于其在摩擦过程中产生可以充当润滑相的石墨化转化摩擦转移膜。在三种涂层中, Cr/GLC薄膜表现出最高的腐蚀电位-0.16 V和最低的腐蚀电流密度4.42×10^-9 A/cm²。因此相较于Ti, W作过渡层的GLC薄膜, Cr/GLC薄膜在海水环境下表现出优异的摩擦学特性。     

45 钢表面激光合金化组织分析及硬度测试

目的为了提高45钢表面性能,采用CO2激光器对其表面进行合金化处理。方法利用带有能谱的扫描电子显微镜(SEM/EDS)、金相显微镜、X射线衍射仪、显微/维氏硬度计、扫描电镜等,对合金化层组织及性能进行了观察和分析。结果激光合金化层由合金化区、结合区和热影响区3部分组成,涂层与基体呈冶金结合;涂层主要含Cr3C2,Fe Ni3,Cr23C6,Fe3C相;激光合金化层的显微硬度达1032 HV,约为基体的3.5倍。结论 45钢经激光合金化处理,可改善其表面性能,显著提高其硬度。     

Effects of Cr on stacking-fault energy and damping capacity of FeMn

Effects of Cr on the stacking-fault energy (SFE) and damping capacity were investigated by experimental and theoretical methods. The effect of Cr on SFE was thermodynamically calculated; the damping capacity, phase composition, microstructure and corrosion resistance were experimentally measured. The results showed that Cr increases the SFE of Fe17MnxCr which resulted in the decay of damping capacity; the increase in α’ martensite with the increasing Cr content above 6% pins the movement of Shockley partials’ dislocation and thus makes the damping capacity even worse; the optimum Cr content of Fe17MnxCr to improve the corrosion resistance in water vapour with a lesser decrease in damping capacity is about 6%.     

Surface Hardening of Alloy Steels Using a High Intensity Electron Beam

Energy sources such as electron or laser beams have been extensively used for materials processing. Surface hardening is an established process used in industry. A combination of nitriding and electron beam treatment is used to modify alloy steel with nominal composition (wt.%) of 0.42% C, 0.96% Cr, 0.6% Mn, 0.37% Si, balance Fe. The hardness of the hardened layer varies in the range 800-850 HV. The high hardness is due to a refined microstructure consisting of a -solid solution (nitrous martensite) and γ - solid solution (nitrous austenite) and dispersed fine nitride precipitates. The wear resistance the of electron beam treated layer is double that of the ion nitrided specimens.     

Analysis of the microstructure of Cr–Ni surface layers deposited on Fe3Al by TIG

A series of Cr–Ni alloys were overlaid on a Fe₃Al surface by tungsten inert gas arc welding (TIG) technology. The microstructure of the Cr–Ni surface layers were analysed by means of optical metallography, scanning electron microscopy (SEM) and X-ray diffraction (XRD). The results indicated that when the appropriate TIG parameters were used and Cr25–Ni13 and Cr25–Ni20 alloys were used for the overlaid materials, the Cr–Ni surface layers were crack-free. The matrix of the surface layer was austenite (A), pro-eutectoid ferrite (PF), acicular ferrite (AF), carbide-free bainite (CFB) and lath martensite (LM), distributed on the austenitic grain boundaries as well as inside the grains. The phase constituents of the Cr25–Ni13 surface layer were γ-Fe, Fe₃Al, FeAl, NiAl, an Fe–C compound and an Fe–C–Cr compound. The microhardness of the fusion zone was lower than that of the Fe₃Al base metal and Cr25–Ni13 surface layer.     

激光熔覆涂层与热喷涂涂层组织性能比较

分别采用激光熔覆与火焰喷涂两种技术在38CrMoAl基体表面制备NiCrBi WC(wt20%)合金涂层,比较其组织结构及其硬度分布,试验表明：激光熔覆涂层无缺陷,成品率高,组织细密均匀,晶粒细小,硬度高,对基体热影响小,与基体结合为成分缓慢过渡的冶金结合。     

SURFACE ALLOYING OF MILD STEEL BY LASER MELTING OF AN ELECTROLESS NICKEL DEPOSIT CONTAINING CHROMIUM CARBIDES

It is possible to realize surface alloys by laser melting an electroless nickel layer containing chromium carbide particles predeposited on a mild steel substrate. By this way the surface alloy is expected to have not only a high nickel content but also an important chromium content in order to improve the corrosion resistance. The presence of chromium in solid solution results from the dissolution or melting of the carbide particles. Typical laser solidification microstructures are obtained. Dendrites consist of an austenitic Fe-Ni-Cr solid solution and interdendritic regions are constituted by an eutectic mixture containing the same austenitic solid solution and complex Fe, Ni, Cr carbides and phosphides. In comparison with a surface alloy obtained by laser melting of an electroless nickel layer without carbide particles, the corrosion resistance was slightly improved in saline aqueous solutions. The limited effect was due to the fact that the final chromium content in the present experimental conditions was not as high as that initially expected.     

Microhardness and Microstructure Studies on Laser Surface Alloyed Aluminum Alloy with Ni-Cr

Aluminum alloy LM13 was surface alloyed with Ni and Cr of different compositions (in wt.%) at various laser powers (1 kW, 1.5 kW, and 2 kW) using CW CO₂ laser. Microhardness and microstructure of alloyed regions were examined.

The study shows that surface alloying is achieved when the laser power is sufficiently high (1.5 kW). Microhardness increases appreciably when the Cr concentration is increased in the Ni-Cr composition. However, in the alloyed region, large variations in microhardness are observed with depth below the surface of the material. Microstructure exhibits needle structure when Ni-concentration is high and undergoes a phase transformation when Cr-concentration is increased. XRD analysis in the alloyed samples shows formation of intermetallic compounds.     

温度对40Cr13钢等离子表面渗铌层组织的影响

为提高马氏体不锈钢的耐蚀和耐磨性能,选择40Cr13不锈钢为基材、纯铌板为靶材,采用双辉等离子表面冶金技术在不锈钢表面制备合金化层.用SEM、GDOES、XRD等方法分析渗铌温度对铌合金层组织、成分、相组成、表面形貌及硬度的影响,并对渗层形成机制及表面硬化机理进行了研究.结果表明:在900~1 000℃形成的铌合金层组织均匀致密,合金层主要由Nb2C、Nb C、Fe2Nb、Cr2Nb及铌组成;合金层表面粗糙度随渗铌温度的提高而增加;合金层厚度随渗铌温度改变发生不同变化规律,950℃渗铌形成的渗层约13μm,900和1 000℃渗铌后合金层厚度均为7μm左右;不同温度渗铌后试样的表面硬度与基体相比均有较大幅度的提高,1 000℃渗铌后试样表面硬度高达约985 HV0.025,900℃渗铌后约758 HV0.025,而950℃渗铌后表面硬度最低,约698 HV0.025.     

Nickel Enriched Diffusion Layers on a NiAl Alloy

The intermetallic phase NiAl is a perspective material for high-temperature and shape memory effect applications. Formation of Ni₅Al₃, Ni₂Al, Ni₃Al phases which influence the extent of martensitic transformation in NiAl have been studied up to now with controversial results. We have investigated (using SEM and local elemental analyses) the microstructure of nickel enriched surface layers on a Al-79 wt.% Ni alloy. The layers were prepared by diffusion annealing and subsequently given two different heat treatments: at 930°C outside the Ni₅Al₃ region and at 500°C within the Ni₅Al₃ region of the phase diagram. In the specimen which was only diffusion annealed separate islands of Ni₅Al₃ phase elongated in the direction of the concentration gradient could be recognized within the nickel enriched surface layer. In the samples additionally annealed at 500°C, a well defined continuous layer of the Ni₅Al₃ phase situated 0.4 mm below the specimen surface was found. In the samples annealed at 930°C, isolated Ni₃Al precipitates were observed. Their number and size gradually increased with increasing nickel content.     

Effect of chromium content on microstructure and corrosion behavior of W--Cr--C coatings prepared on tungsten substrate

W--Cr--C coatings with different chromium contents (0--3 wt.%) were fabricated on the tungsten substrates by spark plasma sintering (SPS) method from the graphite and chromium mixed powders. SEM and XRD were exploited to analyze the effect of Cr contents on the microstructure of coatings. It was found that the abnormal hollow WC grains disappeared with addition of Cr less than 2%, and the microstructures were largely refined and densified. With further increase of Cr addition, the grains changed slightly but the densification was reduced. The most dense coating was achieved at 1 wt.% Cr. Corrosion behavior of the W--Cr--C coatings were investigated by impedance spectrum and potentiodynamic polarization tests. Results suggested that the W--1Cr--C coated W sample exhibited the lowest corrosion current density and highest corrosion potential due to the most densified microstructure, indicating that the addition of Cr at 1 wt.% was optimal for WC coating against corrosion.     

离焦量对激光熔覆层组织及性能的影响

目的改善40 Cr钢表面性能,提高其表面硬度、耐磨性及耐蚀性。方法利用扫描电子显微镜、显微硬度计、磨损试验机、电化学测试系统等对激光熔覆层组织及性能进行观察和分析。结果离焦量越大,熔覆粉末及基体表面熔化深度越浅,通过控制适当的离焦量可以获得结合良好的涂层;离焦量为110 mm时,激光束的快热快冷作用能获得细小均匀的组织,细晶能保证较高的硬度,耐磨性及耐蚀性均较好。结论 40Cr钢经激光熔覆处理后可显著改善其表面性能,适宜的离焦量有利于获得最佳性能。     

QPQ盐浴复合处理技术对3Cr2W8V钢组织和性能的影响

QPQ盐浴复合处理是一种新的金属盐浴表面强化改性技术,将QPQ技术应用干3Cr2W8V钢,利用OM、SEM、显微硬度计、X射线衍射仪、高温摩擦磨损试验机和电化学工作站分别对QPQ渗层的显微组织、化学成分、显微硬度,物相,耐磨性和耐蚀性进行了分析研究.结果表明,QPQ渗层表面平整,当盐浴氮碳共渗时间一定时,随着氮碳共渗盐...