AZ91D镁合金化学镀Ni-P的沉积机制

利用金相显微镜（OM）、扫描电子显微镜（SEM）及能谱（EDS）等分析测试手段,研究AZ91D镁合金上直接化学电镀Ni-P的沉积过程。结果表明：活化后的表面上不同位置处最初沉积Ni的过程不同。在活化后的块状物上,由于氟化物的溶解,Mg置换出Ni,因此最初“块状物”上只有Ni沉积,没有P。β相和α相边缘则是由于其电位较高,附近的Ni2+得到Mg失去少量电子后还原沉积出高催化活性的Ni核,催化了次亚磷酸钠还原沉积出P和Ni。     

AZ91D镁合金化学镀Ni-P及Ni-W-P镀层的结构与耐蚀性

在AZ91D镁合金上直接化学镀Ni-P和Ni-W-P镀层,并利用扫描电子显微镜、X射线衍射仪及电化学工作站研究后续热处理对化学镀层组织形貌、相组成及其耐蚀性的影响。结果表明,制备的Ni-P镀层为非晶态,而Ni-W-P镀层为纳米晶结构,两者在3.5%NaCl水溶液中的耐蚀性相当。热处理可以明显提高Ni-W-P镀层的耐蚀能力,但却稍微弱化Ni-P镀层的耐蚀能力,热处理后的Ni-W-P层自腐蚀电位相对于未处理的化学镀Ni-W-P或Ni-P层提高了约150 mV。     

AZ91D镁合金的均一化前处理与化学镀Ni-P

采用新型环保的均一化前处理工艺在AZ91D镁合金表面制备了化学镀Ni-P镀层。研究了前处理过程中AZ91D基体微观形貌、镀层沉积过程、成分和相结构。研究结果表明：基体表面的β相在前处理过程中被选择性去除,表面组织得到均一化,从而获得均匀致密的浸Zn层。Ni-P颗粒均匀形核生长,并最终形成致密的镀层。镀层具有优良的耐腐蚀性能。     

AZ91D镁合金的化学镀镍

使用硫酸镍作为化学镀镍磷镀液的主盐,直接在AZ91D镁合金基体上化学镀镍.使用扫描电镜和X射线衍射技术分析镀层的表面形貌和组织.化学镀镍磷镀层是致密的,无明显缺陷,其磷含量约为372 mass%.化学镀镍磷镀层的显微硬度值约为660 VHN,化学镀镍的沉积速度为23 μm/h.前处理过程中的酸洗步骤使镁合金基体产生粗糙的表面,从而使镀层和基体之间起到了互锁的作用,增加了镀层的结合力.     

AZ91D 镁合金表面 Ni-P / Ni-Sn-P 双镀层的制备与性能研究

目的提高AZ91D镁合金的耐腐蚀性能,扩大其应用范围。方法先在AZ91D镁合金表面化学镀Ni-P镀层,再化学镀Ni-Sn-P镀层,形成Ni-P/Ni-Sn-P双镀层。研究Ni-P/Ni-Sn-P双镀层的表面形貌和耐腐蚀性能,并与Ni-P单镀层进行对比。结果 Ni-P/Ni-Sn-P双镀层表面分布更均匀平整,缺陷较少,孔隙率较低,具有无定形结构。二次Ni-Sn-P镀层的腐蚀电位约为-0.77 V,略低于一次化学镀Ni-P层(约-0.68 V),两镀层间的电位差使得其构成了微腐蚀电偶,Ni-P层作为阴极,Ni-Sn-P层作为阳极,阳极优先被腐蚀。结论 Ni-P/Ni-Sn-P双镀层的Ni-Sn-P外层能为Ni-P内层提供阴极保护,较好地横向分散腐蚀电流,从而增强AZ91D镁合金基底的耐腐蚀性能。     

AZ91D镁合金化学镀镍磷研究

采用磷酸和氟化钾为前处理酸洗液配方,以碱式碳酸镍为主盐,研究了AZ91D镁合金表面直接化学镀镍-磷工艺。并应用金相截面法对该工艺的镀层沉积速度进行了检测分析;应用X射线衍射分析技术(XRD)、附带能谱仪的扫描电镜(SEM)、显微硬度测试仪以及划痕测试仪等对镀层的形貌结构、成分、硬度及结合力等作了检测与分析。该工艺所获得镀层不仅沉积速率稳定,而且表面良好、性能优良,具有很好的实际工业应用推广意义。     

快速凝固AZ91D镁合金组织的研究

用光学显微镜和透射电镜观察了普通凝固和快速凝固AZ91D合金的组织，用X射线衍射XRD分析了合金的相组成。结果表明，普通凝固AZ91D合金组织由α-Mg基体和β-Mg1，Al12相组成，晶粒较粗大，而快速凝固AZ91D合金薄带截面组织由靠近辊面的粗大等轴晶区、中部的柱状晶区和自由表面层的细小等轴晶区三部分组成，三层组织均为过饱和α-Mg固溶体，并观察到较高的位错密度。     

新型三元复合络合剂体系对AZ91D镁合金表面酸性化学镀Ni-P的影响

利用含新型三元复合络合剂的酸性化学镀镍液体系,在AZ91D镁合金表面通过化学镀制备Ni-P防护镀层。结果表明,镀层沉积速率随着镀液中三元复合络合剂浓度的变化而改变。利用X射线衍射（XRD）、扫描电子显微镜（SEM）和差热分析（DSC）对镀层结构、形貌以及热稳定性进行表征和分析。通过交流阻抗（EIS）和动电位扫描极化曲线对Ni-P镀层在3.5%NaCl溶液中的耐蚀性能进行评价。镀液中三元复合络合剂的浓度对Ni-P镀层的结构与形貌有显著影响。Ni-P镀层的热稳定性随着三元复合络合剂浓度的增加而降低。当镀液中三元复合络合剂浓度为0.035 mol/L时,所制备的Ni-P镀层致密、均一,在3.5%NaCl溶液中表现出良好的耐蚀性能。     

AZ31镁合金轧态薄板化学镀Ni-P合金的工艺研究

为了改善AZ31镁合金轧态薄板的耐腐蚀性能,通过正交试验优化了化学镀Ni-P的配方及工艺,并对Ni-P镀层的形貌、镀层厚度、镀层中P元素的含量以及镀层在3．5％NaCI溶液中的极化曲线进行了测试和表征。结果表明,AZ31镁合金化学镀Ni—P的最优方案为：碱式碳酸镍10g／L,次亚磷酸钠25g/L,温度80％,pH值=8。所得的Ni—P镀层均匀,无明显缺陷,厚度约为18～23μm,P元素的质量分数为9．68％。试样经化学镀Ni—P后的自腐蚀电位大幅度提高,出现了约600mV的钝化区间,其耐蚀性能明显提高。     

前处理工艺对AZ91D镁合金直接化学镀的影响

通过不同的酸洗配方工艺,对比讨论了前处理工艺对AZ91D镁合金直接化学镀镍(DEN)的沉积速率及镀层与基底结合性能的影响。结果表明,AZ91D镁合金表面活化后,虽然粗糙界面由于更多的结合点和更大的机械互锁作用,能提高镀层与基体间的结合力,但是镀层结合的致密程度对结合力的影响作用更为显著。以磷酸和氟化钾为酸洗配方的前处理工艺,更适合AZ91D镁合金直接化学镀。     

镁合金表面化学镀 Ni-P 和 Ni-P-SiC 的对比

目的提高镁合金的耐磨性、耐蚀性,扩大其应用领域。方法采用"磷酸+钼酸铵酸洗→HF活化"的方法进行前处理,直接在AZ91D镁合金表面化学镀Ni-P合金镀层和Ni-P-SiC复合镀层。对两种镀层的表面和截面形貌、成分、结构、硬度、耐蚀性及耐磨性进行了系统比较。结果在Ni-P合金镀层中引入SiC粉末后,镀层的胞状颗粒细化,硬度提高至643HV,但其腐蚀电流密度有所增大。结论与Ni-P合金镀层相比,Ni-P-SiC复合镀层的耐蚀性有所下降,但耐磨性能大大提高。     

AZ91HP镁合金化学镀镍磷及镀层性能研究

目的提高AZ91HP镁合金的耐蚀及耐磨性,扩大其应用范围。方法采用H_3PO_4+Na_3PO_4酸洗液+NH_4HF_2活化的无铬前处理工艺,再直接化学镀,获得镍磷合金镀层,随后对镀层进行了热处理。对施镀前后基体和镀层的形貌、显微硬度和耐蚀性等进行了表征分析。结果 AZ91HP镁合金经H_3PO_4+Na_3PO_4酸洗+NH_4HF_2活化的无铬处理后施镀,形成的细小胞状组织均匀致密,结合力良好,镀层结构以非晶态相为主,耐腐蚀性比基体显著增高。经热处理后,镀层的硬度明显增高且在400℃时获得的镀层硬度最高,但耐蚀性有所下降。结论 H_3PO_4+Na_3PO_4酸洗体系+NH_4HF_2活化为镁合金提供了一种环保而有效的化学镀前处理方法,获得了以非晶态相为主的Ni-P镀层,提高了基体的耐腐蚀性,镀后热处理可进一步提高镀层的硬度。     

Characterization of Electroless Ni-P Deposits on Surface of AZ91D Magnesium Alloy

Characterization of electroless nickel deposits on magnesium alloys was investigated by X-ray diffraction(XRD),scanning electron microscope(SEM),energy dispersive spectrometer(EDS)and electrochemical potentiodynamic polarization analysis.The result of XRD showed that the electroless nickel deposits on magnesium alloys were composed mostly of amorphous Ni-P and partially of microcrystalline nickel.The phosphorus content in the Ni-P deposits was 10.8%by the calculation of EDS.SEM micrographs showed that morphology of electroless nickel deposits on magnesium alloys was a typical cellular structure,and the growth of cellular structure was influenced by surface condition of substrate.Zinc layer between substrate and electroless nickel deposits was not found by the results of SEM and EDS,which indicated that the zinc layer on the surface of magnesium alloy was very thin,and the zinc would dissolved while being immersed in electroless nickel plating solution.The thin zinc layer was almost dissolved completely before Ni-P plating.The result of electrochemical potentiodynamic polarization analysis showed that the corrosion potential Ecorr of electroless nickel deposits in 3.5%NaCl solution was about-0.53 V,which was 1 V higher than that of magnesium alloys substrate.And corrosion current density of Ni-P deposits in 3.5%NaCl solution was much smaller than that of magnesium alloys substrate at the same potential value,which indicated that corrosion resistance of electroless Ni-P deposits was excellent.Discoloration time of concentrated nitric acid test for electroless nickel deposits on magnesium alloys was 445 s,which also indicated excellent corrosion resistance.     

Electroless Ni-P layer with a chromium-free pretreatment on AZ91D magnesium alloy

A phosphate-manganese conversion film was proposed as the pretreatment layer between Ni-P coating and AZ91D magnesium alloy substrate, to replace the traditional chromium oxide plus HF pretreatment. The subsequent Ni-P deposited on the layer was also characterized by its structure, morphology, microhardness and corrosion-resistance. The pretreatment layer on the substrate not only reduces the corrosion of magnesium during Ni-P plating process, but also reduces the potential difference between the matrix and the second phase. Thus, a Ni-P coating with fine and dense structure was obtained on the AZ91D magnesium alloy, which shows better corrosion resistance than the Ni-P with chromium oxide plus HF as pretreatment.     

AZ91D镁合金Ni-P-Al2O3纳米化学复合镀的研究

在对AZ91D镁合金传统化学镀丁艺改进的基础七加入Al2O3纳米颗粒,获得了Ni-P-Al2O3纳米化学复合镀层,研究了施镀温度、时间和纳米颗粒浓度等因素对镀层的耐蚀性和硬度的影响.实验结果显示,复合镀层的耐蚀性最高可比普通镍磷镀层的耐蚀时间高出170s;同时,硬度比镍磷镀层的高出110HV左右,甚至更高.     

压铸镁合金AZ91D手机内构件的Ni-P化学镀

采用直接化学镀镍的方法,得到了光亮且均匀、致密的Ni-P镀层。在分析镀层形貌、化学成分和组织结构的基础上,测定了镀层厚度、硬度、结合力、阻抗及耐蚀性。结果表明：改进后的化学镀镍层与基体结合良好；硬度达479×9.8 MPa,400℃热处理后可提高至826X9.8 MPa；阻抗为0.4 Ω,且随热处理温度的提高呈下降趋势；镀层耐腐蚀性能良好,热处理后耐蚀性有所下降。     

添加剂对AZ91D镁合金化学镀镍磷耐蚀性的影响研究

采用常温碱性超声波清洗、酸洗和活化的前处理工艺在AZ91D镁合金表面化学镀镍,研究了辅助络合剂氨基乙酸和加速剂巯基乙酸对镀层耐蚀性的影响。结果表明:镀层表面由Ni-P固溶体组成,呈现尖锐的晶态峰,磷原子与镍原子形成置换固溶体,表面平整致密,无明显缺陷。氨基乙酸含量对镀层耐蚀性和腐蚀速率影响不大,随着巯基乙酸含量的增加,镀层腐蚀电位先升高后降低,腐蚀速率整体比镁合金基体慢,镀层总体呈现钝化趋势,在4 g/L时腐蚀电位最高。     

Electrophoretic Deposition of 3YSZ Coating on AZ91D Alloy Using Al and Ni-P Interlayers

Journal of Materials Engineering and Performance - Electrophoretic deposition was used in order to apply the zirconia stabilized by 3 mol% Y2O3 onto the surface of the magnesium alloy...     

Direct electroless Ni-P plating on AZ91D magnesium alloy

An electroless Ni-P plating treatment was applied on AZ91D magnesium alloy to improve its corrosion resistance. Optimum pretreatment conditions and optimum bath of electroless nickel plating for magnesium alloy were found through many experiments. In order to avoid bother of pre-plating medium layer, a set of procedure of direct electroless Ni-P under the acid condition was investigated. The properties of the coating with 10% phosphorus were investigated. The results show that a coating with high hardness, low porosity and good adhesive strength is obtained. X-ray diffraction patterns show that the structure of the coating is an amorphous phase. After annealing at 400 ℃, the amorphous phase of Ni-P is transformed to crystalline phases, and some intermetallics as Ni3P and Ni5P2 are deposited from Ni -P solid solution along with an enhancing hardness from Hv 450 to Hv 910.