Electrochemical behaviors of Zn-Fe alloy and Zn-Fe-TiO_2 composite electrodeposition

Electrochemical behaviors of Zn-Fe alloy and Zn-Fe-TiO2 composite electrodeposition in alkaline zincatesolutions were studied respectively by the methods of linear potential sweep and cyclic voltammetry. From the re-sults it can be concluded that Zn shows under potential deposition, Zn-Fe alloy codeposition is anomalous codeposi-tion and Zn-Fe alloy cathode polarization is increased with the introduction of additive. From the view point of elec-trochemistry, the reasons that the content of Fe in the Zn-Fe coating changes with the composition of the electrolyteand the process conditions altering and the relationship between the content of Fe and the appearance of the coatingare interpreted. The cathode polarization of Zn-Fe alloy codeposition is enhanced obviously with addition of additive.In the course of composite electrodeposition, TiO2 has less promotion to electrodeposition of zinc ions than to iron i-ons, while the electrodeposition of iron ions improves the content of TiO2 in composite coating, which is inagreement with the results of process experiments.

静电纺丝法制备SnSbCuFeZn高熵合金/碳纳米纤维复合负极材料

采用静电纺丝技术,结合煅烧工艺,将SnSbCuFeZn高熵合金纳米颗粒均匀地锚定在导电互联的碳纳米纤维中,成功制备了SnSbCuFeZn@CNFs锂离子电池复合负极材料。结果表明,煅烧温度对材料的物相组成和形貌特征有重要影响,且直接影响SnSbCuFeZn高熵合金纳米颗粒的晶相、尺寸和分布,决定SnSbCuFeZn@CNFs电极的电化学性能。其中SnSbCuFeZn@CNFs-900电极展现出优良综合性能:0.1 A/g时,初始放电比容量达1232.8 mA/g,循环200次后可逆放电比容量保持在786.0 mA/g;1.0 A/g时,循环500次后放电比容量仍有433.8 mA/g;2.0 mV/s扫描速度下,赝电容贡献率高达93.37%。

可降解Fe@Fe-Zn骨组织工程支架体外生物相容性研究

目的以多孔铁为基体,利用脉冲电沉积制备可降解多孔Fe@Fe-Zn复合材料骨组织工程支架,以期提高材料的降解速率和抗菌性能。方法通过调节脉冲频率,得到不同Zn含量的Fe-Zn合金层;使用电子探针、X射线衍射仪、扫描电镜来研究材料的元素含量、相组成和显微结构;通过压缩测试考察支架的力学性能;用体外浸泡来考察材料的降解性能;用浸提液培养分析材料对小鼠胚胎成骨细胞的黏附铺展和细胞活性的影响;用浸提液和直接培养来探究材料的抗大肠杆菌性能。结果随脉冲频率增加,合金中Zn含量减小;不同合金均为单一的α(Fe)相;电沉积组织致密,杂质含量低;Zn含量为7.5%(均以质量分数计)时,支架抗压屈服强度较多孔铁提升6%;复合材料的降解速率为0.44~0.48 mm/a,较多孔铁有显著改善;复合材料浸提液在稀释到25%(体积分数)时,表现出良好的细胞相容性,且随Zn含量增加,细胞活性增强;Zn含量为7.5%时,材料的抗菌性能最好。结论通过电沉积制备的Fe@Fe-Zn支架的腐蚀速率相较于多孔铁有明显提高。随合金层中Zn含量的增加,其细胞活性增强,抗菌性能提高。Fe@Fe-Zn有望发展为可广泛应用的可降解骨组织工程支架材料。

镀层中Zn-Fe合金层对海洋工程用钢丝腐蚀性能的影响

热镀锌钢丝镀层中Zn-Fe合金相组成及含量对镀层腐蚀性能影响较大。对Zn-Fe合金层形貌和厚度进行分析,结果表明:镀锌钢丝的耐腐蚀性能随合金层和纯锌层总厚度增加而增加,而Zn-Fe合金层不是越厚越好,最佳厚度6~7.5μm,此时合金层中的脆性相Γ(Fe 5Zn 21),软脆相ξ(FeZn 13)所占比例较少,合金层未出现裂纹,不存在疏松、组织粗大等现象。严格控制合金层中的锌铁元素含量比例,铁元素质量分数在纯锌层内控制在不大于1.5%,而Zn-Fe合金层的Fe元素含量最好控制在不大于8%,保证最佳相δ(FeZn 7)比例是80%~85%,此时合金层的防护性能最佳。

Formation mechanism of amorphous Ni-Fe-P alloys by electrodeposition

The formation mechanism of the amorphous Ni-Fe-P coating was studied by analysis of the forming thermodynamics, dynamics, and crystallography of the amorphous alloy. The results show that, in the initial stage of deposition a thin 'crystal epitaxial growth' layer first forms, and then transforms to amorphous gradually. The cross section in Ni-Fe-P coatings by electrolytic etching exhibits a banded structure of alternate dark and light bands. It is proposed that the banded structure is caused by a change in the P content with thickness,which is due to alternated depletion and enrichment of [OH-] in the diffusion layer resulting from the generation and evolution of hydrogen gas. The amorphous Ni-Fe-P coating will be formed in proper composition, high nucleation rate and strongly hindered growth of the crystal nucleus. Amorphous Ni-Fe-P alloys form as islands, and grow up by layer.

Electrodeposition of Pr-Fe alloy films in urea-dimethylsulfoxide

Cyclic voltammetry and chronoamperometry were used to investigate theelectrochemical behavior of Pr^(3+) ions in a system of 0.01 mol centre dot dm^(-3) Pr(CH_3SO_3)_3 +0.01 mol centre dot dm^(-3) FeCl_2 + 3.0 mol centre dot dm^(-3) urea + DMSO on a R electrode. Someelectrochemical parameters were measured. Potentiostatic depositions between -1.6 and -2.4 V wereapplied to deposit Pr-Fe films in urea-DMSO mixed solution. The Pr content in the alloy films was inthe range of 34.89 wt. percent to 37.15 wt. percent. The Pr-Fe alloy films are proven to beamorphous by XRD (X-ray diffraction).

STUDY ON CO-ELECTRODEPOSITION OF Bi-Fe ALLOY FILMS IN ORGANIC BATH

The cyclic voltametry and potentiostatic electrolysis was used to investigate the preparation of Bi-Fe alloy films in LiClO4-DMSO (dimethylsulfoxide) system. The effects of several factors including the potential of deposition, current density and concentration of iron and bismuth in the solution on the Fe content in the alloy deposits were studied. Experimental results indicated that the amorphous alloy films of Bi-Fe containing Fe 4.40wt%-33.67wt% could be prepared by controlling the system composition and deposition conditions. They were gray, uniform, metallic luster and adhered firmly to the copper substrates analyzed by EDS, SEM and XRD. After heat treatment of crystallization at 270℃ for 1h, the crystal phase of Bi-Fe can be found in XRD patterns.

Preparation of Er-Fe Alloy Films in Dimethylsulfoxide by Electrodeposition Method

Cyclic voltammetry and chronoamperometry were used to investigate the electrochemical behavior of Fe(Ⅱ) and Er(Ⅲ) in a LiClO 4 DMSO(dimethylsufoxide) system at Pt and Cu electrodes. Experimental results indicate that the reductions of Fe(Ⅱ) to Fe(0) and Er(Ⅲ) to Er(0) were irreversible at Pt and Cu electrodes. The diffusion coefficient and the electron transfer coefficient of Fe(Ⅱ) in a 0 01 mol/L FeCl 2 0 1 mol/L LiClO 4 DMSO system at 303 K were 1 70×10 -10 m 2/s and 0 08 respectively, the diffusion coefficient and the electron transfer coefficient of Er(Ⅲ) in a 0 01 mol/L ErCl 3 0 1mol/L LiClO 4 DMSO system at 303 K were 1 47×10 -10 m 2/s and 0 108 respectively. The homogeneous, strong adhesive Er Fe alloy films containing Er of 31 39%-42 12% in mass fraction with metallic lustre were prepared by potentiostatic electrolysis on a Cu electrode in a ErCl 3 FeCl 2 LiClO 4 DMSO system at -1 75--2 50 V( vs . SCE).

超声波电沉积制备Fe-Ni-Co合金箔

Fe-Ni-Co合金箔是过渡金属合金的一种重要类型,在储氢和磁性材料领域具有巨大的应用前景。本研究在氨基磺酸盐-氯化物电镀液体系中,采用电沉积法在纯钛基底上制备出铁基Fe-Ni-Co合金箔,考察pH值、温度、电流密度、超声波功率对Fe-Ni-Co合金箔的形貌、化学成分、晶体结构的影响。结果表明,当pH=2.0、温度为60℃、电流密度为50 mA/cm^(2)、超声波功率为45 W时,合金箔表面平整且气孔较少,杂质元素含量低,截面成分分布较均匀;合金是以Ni为溶剂、Fe和Co为溶质的置换型固溶体,为面心立方的γ-(Fe, Ni)相,硬度及耐腐蚀性能均较好。

水对低共熔溶剂中电沉积Zn-Fe合金镀层性能的影响

目的在氯化胆碱-乙二醇(ChCl-2EG)低共熔溶剂(DESs)中,以水为添加剂,采用电沉积制备Zn-Fe合金镀层,改善镀层的表面形貌,优化晶型结构,提高镀层的耐蚀性能。方法采用电导率仪、黏度计、循环伏安曲线(CV)研究水含量对低共熔溶剂黏度、电导率、电化学窗口的影响。采用扫描电子显微镜(SEM)、能谱仪(EDS),研究水含量对镀层表面形貌和成分的影响。采用X射线衍射仪(XRD),分析水含量对镀层结构特征的影响。采用动电位极化曲线和电化学阻抗谱(EIS),分析水含量对镀层耐蚀性能的影响。结果随着水含量的增加,DESs的黏度降低,电导率升高,镀速增大,镀层中Zn含量提高,平均晶粒尺寸减小。当水的质量分数小于8%时,水会促进Zn和Fe的沉积。当水的质量分数大于8%时,水会抑制Zn和Fe的沉积。此外,当水的质量分数为4%时,DESs能够保持原有的电化学窗口(2.47 V),制备的Zn-Fe合金镀层平整致密,镀层极化电阻达到最大值(1469Ω/cm^(2)),电荷转移电阻达到最大值(612Ω/cm^(2)),耐蚀性最佳。结论水的含量会影响DESs溶剂的黏度、电导率及电化学窗口,会影响Zn-Fe合金镀层的表面形貌、晶粒尺寸及耐蚀性。当加入质量分数4%的水时,不仅能够促进Zn和Fe还原,而且还能改善Zn-Fe合金镀层的表面形貌,提高镀层的耐蚀性能。

Fe-Zn相图不同相区温度合金化锌镀层生长过程模拟

目的 优化GA镀层的成形性能,建立GA镀层物相生长模型,调控镀层物相组成,得出最佳合金化镀层物相组成对应的工艺参数,以指导生产。方法 依据最新的Fe-Zn相图,构建镀层合金化模型,模拟镀层物相η、ζ、δ和Γ生长过程及物相沿镀层截面分布、镀层合金化过程Fe含量变化。结果 成功模拟了Fe-Zn相图不同相区物相的生长过程,模拟530℃以下温度物相转变为η→ζ→δ→Γ,530℃以上温度物相转变为η→δ→Γ。模拟得到最佳镀层物相组成对应的合金化工艺为,510℃保温9.7s,540℃保温6.8s。研究得到了合金化过程中镀层Fe含量的变化规律,在合金化前期,Fe含量增加的速率较快,随着合金化程度的提高,镀层中Fe含量的增加速率减慢。结论 建立的GA镀层物相生长模型可以模拟得到不同合金化温度下最佳的工艺参数,为合金化热处理生产GA镀层提供了工艺参考。

Al-Cr中间合金在熔融Al-Zn-Mg-Si-Fe镀液中的扩散反应研究

以Al-Cr中间合金锭和熔融Al-Zn-Mg-Si-Fe镀液为研究对象,研究了Al-Cr中间合金锭浸入含不同质量分数Fe的630℃熔融镀液15 h的扩散反应。使用扫描电子显微镜、能谱仪分析了扩散前后Al-Cr中间合金锭组织和成分的变化,同时研究了镀液中Fe质量分数对Cr溶解度的影响。研究发现,随着镀液中的Zn、Mg、Si、Fe长时间向Al-Cr锭内部扩散,Al-Cr锭中原有的Al基体的组织转变成了与镀液成分相近的组织,原有的富Cr第二相转变成了Al-Cr-Zn-Si相和Al-(Fe,Cr)-Si相。随着Al-Cr锭中的Cr向镀液扩散,镀液中Cr质量分数升高,并在5 h后达到饱和。由于Cr和Al、Fe、Si优先形成了Al-(Fe,Cr)-Si金属间化合物,因此镀液中的Fe显著降低了Cr元素的饱和溶解度,当镀液Fe质量分数由0.10%增加至0.42%时,镀液中Cr质量分数由0.047%~0.059%减少至0.012%~0.016%。

Electroplated super-hydrophobic Zn−Fe coating for corrosion protection on magnesium alloy

A superhydrophobic Zn−Fe alloy coating was prepared on the surface of a reactive magnesium alloy using a simple,low-cost,eco-friendly method.Firstly,the Zn−Fe coating was obtained in a neutral glycerol Zn−Fe plating solution,which is green,compositionally stable,and non-corrosive to the equipment.And then the superhydrophobic surface with a flower-like microstructure was obtained by grafting myristic acid onto the Zn−Fe coating via a chelation reaction.The water contact angle was>150°and the rolling angle was 3°−4°.The corrosion rate of the two groups of superhydrophobic magnesium alloy samples with electrodeposition time of 30 and 50 min,respectively,was reduced by about 87%compared to that of the bare magnesium alloy.The prepared superhydrophobic coatings exhibit high performance in self-cleaning,abrasion resistance,and corrosion resistance.

Properties of electrodeposited amorphous Fe-Ni-W alloy deposits

A new technique of electroplating amorphous Fe-Ni-W alloy deposits was proposed.The structure and morphology o Fe-Ni-W alloy deposit were detected by XRD and SEM.The friction and wear behavior of Fe-Ni-W alloy deposit were studied and compared with that of chromium deposit.The corrosion properties against 5% sodium chloride,5% sulfuric acid and 5% sodium hydroxide were also discussed.The experimental results indicate that Fe-Ni-W alloy deposits have superior properties against wea than hard chromium deposits under dry sliding condition.Under oil sliding condition,except their better wear resistance,the deposits can protect their counterparts against wear.The deposits plated on brass and AISI 1045 steel show good behavior against corrosion o 5% sodium chloride,5% sulfuric acid and 5% sodium hydroxide.The bath of electroplating amorphous Fe-Ni-W alloy deposits is environmentally friendly and would find widely use in industry.

Effects of the Composition of Electrodeposited Fe-Ni-P Alloy on the Thermostability and Magnetic Properties

The magnetic properties, structure defects of electrodeposited Fe-Ni-P alloys with various compositions and the thermostability at amorphous state have been studied by DSC, positron annihilation and electronic integrating instrument methods. The results show that the thermostability of amorphous Fe-Ni-P alloys increases with Fe content. Emergence and recrystallization of stable phases defer as the P content of the coating increases. The minimum H-c, B-r and P-h occur at 9.4 P (wt pet) content. Maximum H-c, B-r and P-h occur at the weight ratio of Fe to Ni equaling to 1/9.

Friction and wear behavior of electrodeposited amorphous Fe-Co-W alloy deposits

The microstructures, friction and wear behavior under dry sliding condition of electrodeposited amorphous Fe-Co-W alloy deposits heat treated at different temperatures were studied. A comparative study of hard chrome deposit under the same testing condition was also made. The experimental results show that the hardness and wear resistance of amorphous Fe-Co-W alloy deposits are improved with the increasing of heat treatment temperature, and reach the maximum value at 800 ℃, then decrease above 800 ℃. Under 40 N load, the wear resistance properties of the alloy deposits heat treated at 800 ℃ are superior to those of hard chrome deposit. The main wear mechanisms of amorphous Fe-Co-W alloy deposits heat treated below 600 ℃ are peeling, plastic and flowing deformation; when the deposits are heat treated above 700 ℃, they are plastic and flowing deformation. While the main wear mechanisms of hard chrome are abrasive wear, fatigue and peeling.

Effect of Ni addition on microstructure and mechanical properties of Al–Mg–Si–Cu–Zn alloys with a high Mg/Si ratio

The effect of adding 0.03wt%Ni on the microstructure and mechanical properties of Al–Mg–Si–Cu–Zn alloys was systematically studied.The results reveal that the number density of spherical Fe-rich phases within grains increases with the addition of Ni,accompanied by the formation of Q(Al3Mg9Si7Cu2)precipitates around the spherical Fe-rich phases.Additionally,Ni addition is beneficial to reducing the grain size in the as-cast state.During the homogenization process,Q phases could be completely dissolved and the grain size could remain basically unchanged.However,compared with the Ni-free alloy,the Fe-rich phase in the Ni-containing alloy is more likely to undergo the phase transformation and further form more spherical particles during homogenization treatment.After thermomechanical processing,the distribution of Fe-rich phases in the Ni-containing alloy was further greatly improved and directly resulted in a greater formability than that of the Ni-free alloy.Accordingly,a reasonable Ni addition positively affected the microstructure and formability of the alloys.

电力金具表面电沉积Zn-Mn合金镀层及其耐蚀性能研究

Zn镀层是一种常见的防腐涂层,可作为牺牲阳极为电力金具提供良好的阴极保护。电沉积制备的Zn合金镀层可进一步提高镀层的耐蚀性,为电力金具提供更为有效的防护。采用X射线衍射、扫描电子显微镜、动电位极化曲线和电化学阻抗谱分别对Zn-Mn合金镀层的物相、微观形貌和耐蚀性能进行了表征,研究了镀液中MnSO_(4)·H_(2)O的含量对Zn-Mn合金镀层的影响。结果表明,Zn-Mn合金镀层在3.5 wt.%NaCl溶液中具有明显的钝化特征,其腐蚀电流密度低于纯Zn镀层,电化学阻抗值大于纯Zn镀层。当镀液中的MnSO_(4)·H_(2)O的含量为33.8g/L时,所制备的Zn-Mn合金镀层(Zn-Mn Ⅱ)具有平整致密的表面形貌和较高的Mn含量,其耐蚀性能最好。

Electrodeposition of Ni-Co-Fe_2O_3 composite coatings

Ni-Co-Fe2O3 composite coatings were electrodeposited using cetyltrimethylammonium bromide(CTAB)-modified Watt's nickel bath with Fe2O3 particles dispersed in it.The effects of the plating parameters on the chemical composition,structural and morphological characteristics of the electrodeposited Ni-Co-Fe2O3 composite coatings were investigated by energy dispersive X-ray(EDS) spectroscopy,X-ray diffractometry(XRD) and scanning electron microscopy(SEM).The results reveal that Fe2O3 particles can be codeposited in the Ni-Co matrix.The codeposition of Fe2O3 particles with Ni-Co is favoured at high Fe2O3 particle concentration and medium stirring,and the deposition of Co is favoured at high concentration of CTAB.Moreover,the study of the textural perfection of the deposits reveals that the presence of particles leads to the worsening of the quality of the observed <220> preferred orientation.Composites with high concentration of embedded particles exhibit a preferred crystal orientation of <111>.The more the embedded Fe2O3 particles in the metallic matrix,the smaller the sizes of the crystallite for the composite deposits.