Corrosion resistance of electroplated Zn-Co alloy coating

By the NSS test and the test in SO 2 gas atmosphere and detecting the  corr - t curves, R p- t curves and the cyclic voltammogram curves, the corrosion resistance of the electroplated Zn Co alloy coating was studied. The corrosion resistance of the electroplated Zn Co alloy coating is three times higher than that of the galvanized coating. Because the corrosion resistance of the Zn Co alloy coating is especially remarkable in SO 2 gas atmosphere, it is particularly fit to be used as a protective coating in industrial atmosphere. The reason why the Zn Co alloy coating has such a high corrosion resistance is that its corrosive product has a comparatively great role in depressing the corrosive process.

Electroplating of Zr-Ti Alloy

The electrodeposition of Zr-Ti alloy has been studied in molten fluoride system consisting of fluorides of both zirconium and titanium dissolved in FLINAK (KF:NaF:LiF = 42.0:11.5:46.5 mol). A coherent dense deposit of the alloy with a smooth surface is obtained on different material substrates. X-ray diffraction has demonstrated that the alloy deposit is a Ti-Zr solid solution with Ti mainly and its preferred orientation is strongly along Ti[110] direction. The properties of the deposit are better than those of a pure zirconium coating. The optimum operating parameters are a temperature of about 800°C, a current density less than 40mA/cm2, a solution about 15wt% ZrF4 and 15wt% K2TiF6 in FLINAK as well as pure zirconium as anode material.

Electroplating zinc transition layer for electroless nickel plating on AM60 magnesium alloys

Electroplating zinc coating as transition layer of electroless nickel plating on AM60 magnesium alloys was investigated. The zinc film can be deposited in a pyrophosphate bath at 50-60℃under current density of 0.5-1.5 A/dm2. A new fore treatment technology was applied by acid cleaning with a solution containing molybdate and phosphorous acid, by alkaline cleaning in a bath containing molybdate and sodium hydroxide. The subsequent electroless plating was carried out in nickel sulfate bath. The SEM observation shows that the deposition is uniform and compact. The polarization curve measurements show that the corrosion potential of the zinc plating in 3.5% NaCl is about -1.3 V(vs SCE) which is noble than that of magnesium substrate. The zinc electroplating can be applied as the pretreatment process for electroless nickel plating on magnesium alloys.

碳钢表面电镀锌镍/有机富铝复合涂层的制备与性能

为提高碳钢表面电镀锌镍的防护性能和应用限制,采用电镀锌镍层作为底层,有机富铝涂层作为顶层,设计出一种复合涂层防护体系。采用扫描电镜(SEM)、能谱(EDS)、中性盐雾试验、电化学测试等手段对电镀锌镍/有机富铝复合涂层的表面/截面形貌及耐蚀性进行表征与分析。结果表明:电镀锌镍/有机富铝复合涂层表面光滑平整,无明显缺陷,复合涂层体系界面结合良好,无分层现象,经1500 h中性盐雾试验后复合涂层无红锈。复合涂层较单独的电镀锌镍合金层腐蚀电流密度降低了2个数量级,表现出受控的牺牲阳级作用,并实现了在海洋防护领域的应用。复合涂层有效提升了电镀锌镍层的耐腐蚀性能,拓宽了电镀锌镍层在腐蚀防护领域的应用范围。

十六烷基三甲基溴化铵对电镀铜-镍合金耐蚀性的影响

[目的]研究Cu-Ni合金电镀液中添加不同质量浓度的十六烷基三甲基溴化铵(CTAB)对Cu-Ni合金镀层耐蚀性的影响。[方法]通过浸泡腐蚀试验、塔菲尔极化曲线测试和电化学阻抗谱(EIS)考察了Cu-Ni合金镀层的耐蚀性。通过扫描电镜(SEM)、能谱仪(EDS)和X射线衍射仪(XRD)分析了Cu-Ni合金镀层的表面形貌、成分和晶相结构。采用傅里叶变换红外光谱仪(FTIR)分析了CTAB在Cu-Ni合金镀层中的夹杂情况,并通过接触角测量研究了Cu-Ni合金镀层的疏水性。此外,根据阴极极化曲线测试结果,研究了CTAB质量浓度对Cu、Ni及Cu-Ni合金电沉积行为的影响。[结果]随着镀液中CTAB质量浓度增大,Cu-Ni合金镀层的耐蚀性先变好后变差。CTAB质量浓度为80mg/L时所得Cu-Ni合金镀层表面呈花椰菜状的空间立体形貌,镀层中Cu、Ni质量分数分别为50.25%和40.86%,对腐蚀液的接触角达到129.49°,耐蚀性最佳。[结论]镀液中添加适量CTAB能够显著提高Cu-Ni合金镀层的耐蚀性。

电流密度对锌-铟合金电镀层性能的影响

[目的]目前水系锌离子电池负极面临许多挑战。在锌基体表面沉积金属层可为其提供保护屏障,起到抑制析氢、提高耐蚀性、改善力学性能等作用。[方法]采用酸性电镀液在金属锌表面制备了Zn–In合金,镀液配方为:ZnSO_(4)·7H_(2)O 40 g/L,In_(2)(SO_(4))310 g/L,EDTA(乙二胺四乙酸)40 g/L,C_(6)H_(5)K_(3)O_(7)25 g/L,Na_(2)SO_(4)15 g/L,添加剂适量。研究了电流密度对Zn–In合金镀层耐蚀性、微观形貌和显微硬度的影响。[结果]电流密度为0.6 A/dm^(2)时所得Zn–In合金镀层表面均匀、平整且致密,耐蚀性最佳,显微硬度也较高。能谱(EDS)和X射线光电子谱(XPS)分析结果表明,所得的镀层主要由Zn、In及其氧化物组成。[结论]在锌箔表面电镀Zn–In合金可提高其耐蚀性和表面品质,有望扩宽其在水系锌离子电池方面的应用。

One-step pickling-activation before magnesium alloy plating

A one-step pickling-activation process was proposed as an environmental friendly pretreatment method in phosphate-permanganate solution before electroplating on magnesium alloys. The effects of pickling-activation on qualities of coating were assessed by adhesion and porosity testing of copper plating. The interfacial reactions between specimen and solution were analyzed with SEM,EDX and XRD. The results show that the developed process of pickling-activation can equalize the potentials on substrate surface. The compacted zinc film can be obtained by zinc immersion after treating magnesium alloy in the pH 4-6 phosphate-permanganate solution for 3-5 min. The adhesion and corrosion resistance of copper plating are enhanced. The one-step pickling-activation can replace the existing two-step process of acid pickling and activation which contains a great deal of chromium and fluorine. The procedure of surface pretreatment is simplified and the production environment is improved.

A novel dual nickel coating on AZ91D magnesium alloy

Magnesium alloys covered with metal coating display excellent corrosion resistance,wear resistance,conductivity and electromagnetic shielding properties.The electroless plating Ni-P as bottom layer following the electroplating nickel as surface layer on AZ91D magnesium alloy was investigated.The coating surface morphology was observed with SEM and the structure was analyzed with XRD.Electrochemical tests and salt spray tests were carried out to study the corrosion resistance.The experimental results indicate that the dual coating is uniform,compact and pore-free.The adhesion strength between magnesium alloy substrate and electroless plating Ni-P bottom layer and electroplating nickel surface layer is perfect.The corrosion resistance of AZ91D magnesium alloy is greatly improved after being protected with the dual coating.

高耐蚀性镀锌镍合金防护层在航空航天领域的应用

开发了航空航天铝合金件上制备锌镍合金防护层的工艺,主要包括化学沉锌、化学预镀镍、化学镀镍、锌镍合金电镀、六价铬黑色钝化及石墨烯改性封闭剂后处理。这种镀层在中性盐雾试验1008 h后无锈蚀,热震试验无起泡和脱落,可代替传统的镀镉层,制备工艺绿色环保,具有良好的应用前景。

阳极材料对镍铜合金电镀工艺及镀层性能的影响

采用4种阳极材料在碳钢表面制备了镍铜合金镀层,通过宏观形貌以及电化学工作站、扫描电子显微镜、X射线衍射仪、三维光学轮廓仪等研究了镀层的厚度、粗糙度、形貌、成分、结构和耐蚀性能等,讨论了阳极材料对镍铜合金电镀工艺及镀层性能的影响。结果表明:蒙乃尔合金阳极制备的镀层综合性能最好,其次为镍阳极和石墨阳极制备的镀层,铜阳极制备的镀层综合性能最差。不同阳极材料制备的镀层厚度大小为:镍阳极>蒙乃尔阳极>石墨阳极>铜阳极;4种阳极材料制备的镀层粗糙度大小为:铜阳极>蒙乃尔阳极>镍阳极>石墨阳极;4种阳极材料制备的镀层耐蚀性能为:蒙乃尔阳极>石墨阳极>镍阳极>铜阳极。

硼砂对电镀铜-镍合金耐蚀性的影响

在Cu-Ni合金电镀液(由NiSO_(4)·6H_(2)O 174 g/L、CuSO_(4)·5H_(2)O 16 g/L、Na_(3)C6H5O_(7)·2H_(2)O 87 g/L和CH_(3)COONa 10 g/L组成)中添加0~5 g/L硼砂(Na_(2)B_(4)O_(7)·10H_(2)O),对比了硼砂质量浓度不同时铜基材上所得Cu-Ni合金镀层的外观、厚度和表面形貌。通过电化学阻抗谱(EIS)和Tafel曲线测试研究了硼砂质量浓度对电镀Cu-Ni合金耐蚀性的影响。结果表明,镀液中添加1~5 g/L硼砂对沉积速率影响不大,但能够提高Cu-Ni合金镀层的均匀性、致密性和平整性,进而改善其耐蚀性。随电镀液中硼砂质量浓度增大,Cu-Ni合金镀层的耐蚀性先改善后变差。当硼砂质量浓度为3 g/L时,Cu-Ni合金镀层的表面形貌最佳,耐蚀性最好。

电弧喷涂Zn-Al-Ni-Cu复合涂层的微观组织和性能

在保证涂层品质和性能的基础上,为有效降低电弧喷涂丝材的成本,利用电镀技术在锌铝合金丝材上依次电镀纯铜和不同厚度的镍层,再通过电弧喷涂技术在Q235钢表面制备了Zn-Al-Ni-Cu复合涂层,并与传统Zn85Al15和Ni95Al5丝材制备的涂层进行性能对比。采用X射线衍射仪(XRD)、能谱仪(EDS)和扫描电子显微镜(SEM)表征了丝材的微观结构和各涂层的物相组成、元素成分及表面形貌。结果表明:合金丝材上镀层的结合力较强,镀层与基体的界面无明显的孔洞。以电镀镍的Zn Al丝材制备的涂层主要包含Zn相、Al相及其两相组成物,其中Zn、Al两相组成物的X射线衍射峰较ZnAl涂层有所增强。考察各涂层的摩擦磨损性能、电化学性能和耐中性盐雾性能后发现,相较于Ni Al和Zn Al涂层,Zn-Al-Ni-Cu复合涂层的摩擦因数更小,耐海水和耐盐雾腐蚀性能更优异。

稳恒磁场下Ni-W合金镀膜的制备与耐蚀性

研究了施加稳恒磁场（0～1T）对电镀Ni—W合金的影响。测定不同方向、不同强度稳恒磁场下的电流效率、合金组成及镀层的耐蚀性，并用扫描电镜和X射线衍射对镀层的微观形貌及结构进行了观察和分析。对实验结果进行了分析讨论，找出稳恒磁场对这些性能指标的影响规律。结果表明：与不施加磁场相比，施加磁场后镀层的表面更均匀、细致、平整；镀层的含钨量上升：当B⊥J，B=1．0T时，含钨量上升了约7％；当B∥J，B=1．0T时，含钨量上升了约9％；镀膜的非晶化程度增强；镀膜的耐蚀性提高；但Ni—W合金电镀的电流效率降低。

电镀防护性锌基合金镀层钝化膜的耐蚀性

防护性锌基合金(Zn-Ni、Zn-Fe、Zn-Co)镀层钝化膜的耐蚀性比锌镀层钝化膜提高2～4倍。XPS及AES分析表明,合金镀层钝化膜与锌镀层钝化膜均由CrO_3、Cr_2O_3、Zn(OH)_2、ZnO及H_2O等组成,并且CrO_3/Cr_2O_3的相对含量和Zn(OH)_2/ZnO的相对含量也基本相同。它们的区别在于:合金镀层钝化膜中总铬量较高,膜层完整、致密,镀层/钝化膜界面存在铁系金属的富集层,这是锌基合金镀层钝化膜具有高耐蚀性的主要原因。

镁合金新型电镀工艺研究

研究了一种镁合金表面直接电镀镍的新工艺.采用脉冲电流法预镀镍,再采用脉冲电流或恒电流方法电沉积镍,可在镁合金表面获得结合力、防护装饰性能优良的镍镀层.采用记时电位和动电位扫描方法研究了镁合金的直接电镀镍行为,采用扫描电子显微镜(SEM)和X射线衍射(XRD)等方法对镀层的微观形貌和结构进行分析.结果表明:镁合金表面经脉冲电流法预镀镍后,表面形成了稳定的薄层镍镀层,可为后续电镀镍合金提供性能良好的镀层基底;后续镀液中的促进剂具有提高电流效率、促进镀层沉积的作用.镁合金直接电镀工艺所得镀层具有非晶态结构,均匀、致密,耐蚀性能优异.

电镀钨合金抽油杆耐硫化氢腐蚀研究

采用直流电镀法,在30CrMo抽油杆表面分别制备了单层Fe–Ni–W、Ni–W–P、Ni–W和双层Fe–Ni/Ni–W–P合金。室温下,将上述镀覆了钨合金的抽油杆浸泡在饱和H2S水溶液中30d,采用失重法、扫描电镜、X射线衍射等方法对其耐腐蚀进行了分析。结合阳极极化曲线测量,探讨了双层Fe–Ni/Ni–W–P镀层的耐蚀机理。实验结果表明:钨合金镀层使抽油杆的耐腐蚀性得到了显著提高,从而可延长其使用寿命。双层Fe–Ni/Ni–W–P合金镀层的耐蚀性最好,Fe–Ni层与Ni–W–P层之间的电势差达到了150mV,起到很好的保护作用。

电镀钨合金镀层组织及其耐腐蚀性能研究

主要分析了电镀钨合金镀层质量及其耐H2S-CO2腐蚀性能。通过SEM、EDX和XRD分析发现镀层与基体结合强度较高,但镀层淬火处理时出现龟裂现象,裂纹均匀排布于镀层表面。腐蚀评价表明腐蚀作用只发生在镀层淬火所形成的裂缝部位,造成裂缝内部充满大量腐蚀产物,非裂纹表面未见腐蚀。指出镀钨合金若用于酸性环境,尚需优化配方、降低硬度、增加韧性,此外还应检测基材屈服强度85%拉应力下的镀层应力腐蚀开裂行为。

航空高强钢低氢脆电镀锌-镍合金工艺研究

对航空高强钢低氢脆电镀锌-镍合金工艺进行研究。分析在酸性氯化物体系下锌-镍比、电流密度、温度及添加剂等工艺参数对镀层性能的影响,得到镍含量达到13%~15%,耐蚀性能、低氢脆性能满足要求的合金镀层。

锌镍合金镀层耐腐蚀性的研究

锌镍合金层具有优异的耐蚀性,从全硫酸盐体系中用电沉积的方法制备了纯锌镀层和锌镍合金镀层。应用能量色散X射线分析仪检测了合金层的相对含量。通过中性盐雾试验、极化曲线、交流阻抗和腐蚀浸泡等试验方法研究了镀层的耐腐蚀性能。试验表明,含镍 16%的锌镍合金镀层的腐蚀电位较纯锌镀层的腐蚀电位正移 230mV,该合金的耐盐雾性能达到 1 000h,是相同厚度纯锌镀层的 4. 5倍,具有优良的耐腐蚀性。

强碱性溶液电镀锌镍合金研究进展

锌镍合金镀层耐蚀性和耐磨性均优于锌镀层 ,本文综述了强碱性溶液电镀锌镍合金的研究现状和发展趋势 。