压铸镁合金AZ91表面化学镀Ni P合金研究

研究了压铸镁合金AZ91的表面化学镀镍磷合金的工艺，利用X射线衍射(XRD)、扫描电镜SEM)、能谱(XPS)及极化曲线的测量等方法，探讨了镁合金表面化学镀Ni P层的组织、相、成分及其耐蚀性，结果显示，镁合金化学镀Ni-P合金镀层在350 ℃热处理后成晶态，镀层成分为NiP、Ni₂P等.化学镀Ni-P合金镀层在3.5% NaCl中的极化曲线存在明显的钝化区，且钝化区呈直线均匀，耐蚀性较好.     

铝合金2024上钒酸盐转化膜的研究

利用浸渍法在铝合金表面获得钒酸盐转化膜,应用交流阻抗技术(EIS)研究了NaVO3浓度及浸泡时间对铝合金2024表面钒酸盐转化膜成膜过程的影响,扫描电子显微镜(SEM)与能量散射能谱(EDS)分析膜表面形貌与成分.结果表明,EIS显示当转化液中NaVO3的浓度为0.1 M时处理3 min得到的转化膜的阻抗值最大,达到7.17×105Ω.cm2;SEM显示在该溶液浓度下表面所形成的转化膜均匀致密,其成分主要由Al,V,Mg元素组成.钒酸盐转化膜工艺简单,对环境无污染,膜的耐蚀性强,具有一定的应用前景.     

Galvanic corrosion behavior of die cast AZ91D magnesium alloy in chloride solution

The galvanic corrosion behavior of die cast AZ91D magnesium alloy coupled with H62 brass, 316L stainless steel, A3steel and LY12 aluminum alloy of different areas in 3.5% NaC1 solution was studied. The free corrosion potentials, galvanic potentials and currents of these galvanic couples were measured. The galvanic effects were determined by the mass loss and regression method using three points. The results show that: (1) In these four kinds of couples AZ91D acts as the anode, whose galvanic corrosion behavior is mainly controlled by the cathodic polarization; (2) The free corrosion potentials of these four kinds of couples change a liffle with time and cathodic/anodic area ratio (CAAR); (3) The galvanic potential of AZ91D/LY12 moves positively with the increase of time and CAAR; (4) The galvanic currents increase with CAAR, but there is difference in the current change between different couples; (5) The anodic dissolution rate of the magnesium alloy increases by 2-3 orders after being coupled with these four kinds of metals and the galvanic effects of these couples have such a relation as γH62＞γ316LS.S＞γLY12 ＞γA3.     

磷化液中ZnO对AZ61镁合金磷化膜的影响

探讨了锌系磷化液中主要的成膜物质ZnO的质量浓度对AZ61镁合金磷化膜的微观结构和性能的影响.利用金相显微镜、扫描电镜、能谱分析仪观察和分析了磷化膜的结构、表面形态和组成成分,并通过阳极极化曲线测量评价了磷化膜的耐腐蚀性能.结果表明:在低ZnO质量浓度的磷化液中,获得的磷化膜比较疏松且不完整,其并未表现出优异的耐腐蚀性;在高ZnO质量浓度的磷化液中,得到的磷化膜晶粒较粗大,厚度不均匀,耐腐蚀性不佳;在中等ZnO质量浓度2.0g／L的磷化液中,得到了均匀、完整的磷化膜层,极化曲线测量表明了其在质量分数为3.5％NaCl溶液中具有较好的耐腐蚀性.     

Surface nanocrystallization of magnesium alloy AZ91D by high-energy shot peening

High-energy shot peening (HESP), a method to produce severe plastic deformation by high velocity flying balls, was applied on die cast magnesium alloy AZ91D. Effects of surface nanocrystallization by HESP and heat treatment at different temperatures were investigated. The microstructure evolution was conducted using X-ray diffraction (XRD) and field emission scanning electronic microscopy (FESEM). The hardness was measured by microhardness tester. The experimental results show that surface nanocrystrallization of AZ91D obtained by HESP would lead to the increase of microhardness. Low temperature heated at 100 °C for 1 h do not change the property obviously. However, both the microstructure and microhardness vary greatly after heat treatment at 400 °C for 1 h. Funded by the National Ministry of Education (No.207095) and Beijing Key Laboratory for Corrosion Erosion and Surface Technology     

Ho对AZ91镁合金腐蚀行为的影响

采用重力铸造方法制备了3种Ho改性AZ91镁合金。通过腐蚀实验对改性合金的自腐蚀和电偶腐蚀行为进行了研究。结果表明,随着Ho含量的增加,改性合金的自腐蚀性能和电偶腐蚀性能逐步提高,当Ho的质量分数为1.10%和2.16%时,合金的耐蚀性能较佳。此外,阴极的特性对改性合金的腐蚀性能有明显影响,4种材料的阴极作用由弱到强依次为:铝硅合金,纯铝,45#钢和球墨铸铁。Ho通过抑制β相的阴极作用,增加自腐蚀电位,提高了合金的腐蚀性能。     

Microstructure and mechanical properties of AZ91 magnesium alloy subject to deep cryogenic treatments

AZ91 magnesium alloy was subjected to a deep cryogenic treatment. X-ray diffraction （XRD）, scanning electronic microscopy （SEM）, and transmission electronic microscopy （TEM） methods were utilized to characterize the composition and microstructure of the treated samples. The results show that after two cryogenic treatments, the quantity of the precipitate hardening β phase increases, and the sizes of the precipitates are refined from 8-10μm to 2-4μm. This is expected to be due to the decreased solubility of aluminum in the matrix at low temperature and the significant plastic deformation owing to internal differences in thermal contraction between phases and grains. The polycrystalline matrix is also noticeably refined, with the sizes of the subsequent nanocrystalline grains in the range of 50-100 nm. High density dislocations are observed to pile up at the grain boundaries, inducing the dynamic recrystallization of the microstructure, leading to the generation of a nanocrystalline grain structure. After two deep cryogenic treatments, the tensile strength and elongation are found to be substantially increased, rising from 243 MPa and 4.4% of as-cast state to 299 MPa and 5.1%.     

镁合金化学镀Ni-W-P合金

将AZ91D镁合金无铬处理后,以硫酸镍和钨酸钠为主盐,柠檬酸钠和碳酸钠为复合络合剂,在碱性镀液中通过调整镀液组成,得到W含量较高的Ni-W-P合金镀层。此镀层中W及P的质量分数分别为4.50%和4.84%。通过孔隙率和极化曲线测量了此镀层的耐蚀性能,表明该镀层能够很好地提高AZ91D镁合金的耐蚀性。     

AZ91D镁合金表面环保型钙系磷化膜的制备及其耐蚀性

采用化学转化处理的方法,在AZ91D镁合金的表面制备了均匀致密的钙系磷化膜,其中磷化液配方中不含铬、氟及亚硝酸盐等对环境有害的离子。通过场发射扫描电子显微镜和X射线衍射仪研究了磷化时间及温度对磷化膜结构和相组成的影响。结果表明:磷化时间为20min,磷化温度为40℃时,所得到的磷化膜的致密性和均匀性较好。与空白基体相比,经磷化处理后的镁合金在3.5%NaCl溶液中的耐腐蚀性能明显提高。     

硅烷膜固化方式对AZ91镁合金耐蚀性的影响

为了改善AZ91镁合金的耐蚀性,采用包括加热固化、碱液固化和微电水固化在内的3种不同固化方式制备了硅烷膜,并对其耐蚀性进行了研究.采用光学显微镜和扫描电子显微镜观察了试样的腐蚀形貌,并采用极化曲线分析了硅烷膜的耐蚀性.结果表明,经硅烷化处理后,AZ91镁合金表面可以形成一层硅烷膜,且很好地抑制了镁合金的腐蚀;对比3种不同固化方式后发现,碱液固化效果最佳,其次是加热固化,微电水固化效果虽不及前两者,但也有较好的效果.     

稀土铈对AZ91镁合金表面腐蚀性能的影响

为解决镁合金表面处理工艺复杂、成本高且存在环境污染问题 ,采用气相扩渗法研究了稀土铈对AZ91镁合金表面的渗入及其耐腐蚀性能的影响 .结果表明 ,经过扩渗稀土铈表面处理的AZ91镁合金 ,腐蚀电阻增大近一倍 ,均匀腐蚀速率由 1.85 0mg/m2 ·s降为 0 .876mg/m2 ·s;腐蚀电位正移 ,同一电位下所对应的腐蚀电流密度明显降低 .利用X射线光电子能谱 (XPS)分析了经过扩渗稀土后AZ91镁合金表面的成分中 ,稀土铈是以化合态的形式存在于表层 ,渗入的稀土元素铈起到净化合金表面、微合金化的作用     

Initial corrosion behaviors of AZ91 magnesium alloy in the presence of SO2

The effects of SO2 on the initial atmospheric corrosion of AZ91D magnesium alloy were investigated in laboratory. Met-allographic observation, SEM (Scanning Electron Microscopy), XRD (X-ray Diffraction) and XPS (X-ray Proton Spectrograph) were used to analyze and discuss the initial surface morphology of corrosion layers and corrosion products. The corrosion rate of the alloy increases with increasing the content of SO2. The initial attack has the characteristics of localized corrosion and preferentially concentrates on a phase. MgO and Mg(OH)2 form at first, which provide a protective layer, then the existence of SO2 decreases the pH of the thin solution on the alloy, accelerates dissolution process, and promotes the formation of MgSO3·6H2O and MgSO4·6H2O, meanwhile cracks were found on the corrosion products with corrosion continuation. These soluble corrosion products and the cracks provide the paths for filtering oxygen and corrosion pollutants into the matrix, which results in severe localized co     

Influence of deformation on precipitation in AZ80 magnesium alloy

Precipitates in the conventionally processed (solution treatment followed by aging) AZ80 alloy are coarse, cellular, and incoherent. They nucleate and grow on the basal planes of the matrix or distribute discontinuously in the alloy. Their unique morphology and undesired distribution make them ineffective for precipitation strengthening. This condition, however, can be modified by applying selected deforma-tion and heat treatment conditions. The effect of deformation and heat treatment on the morphology and...     

Influence of chemical liquids on the fatigue crack growth of the AZ31 magnesium alloy

The fatigue crack growth behavior of an AZ31 magnesium alloy was investigated by comparing the effect of zirconate and phos-phate chemical liquids.The morphology,components,and phase compositions of the chemical depositions at the fatigue crack tip were analyzed by employing scanning electron microscopy(SEM),energy dispersive spectroscopy(EDS),and X-ray diffraction(XRD),respectively.For samples with and without the chemical liquids,their stress-intensity factor values at the fatigue crack tip were compared by using a stress-strain gauge.The results demonstrated that a zirconate film(ZrxOy·ZnxOy) and a phosphate film(Zn3(PO4)2·4H2O and MgZnP2O7) could be formed on the fatigue crack-surface at the fatigue crack tip.The stress distribution was changed because of the chemical depositions and the causticity of the chemical liquids.This could decrease the stress-intensity factor value and thus effectively cause fatigue crack closure,which reduces the fatigue crack growth rate.Moreover,it was found that the fatigue crack closure effect of zirconates was more positive than that of phosphates.     

Effects of rare earth elements on the microstructure and properties of magnesium alloy AZ91D

The effects of rare earth elements on the microstructure and properties of Magnesium alloy AZ91D alloy were studied.The different proportion of rare earth elements was added to the AZ91D and the tensile tests were carried out at different temperatures.The experimental results show that at room temperature or at 120℃ the AZ91D‘s decrease with the increasing amount of the rare earth elements.however,the ductility is improved.The influence of 0.14%Sb(mass fraction)on the AZ91D‘s strength is like that of rare earth elements(0.2%-0.4%)(mass fraction).Microstructure graphs demonstrate that appropriate amount of rare earth elements (0.1%-0.2%) can fine AZ91D‘s grain and improve its ductility.     

热挤压镁合金AZ91的微观组织及其力学行为

研究了热挤压镁合金AZ91的微观组织以及在不同试验温度和不同的热处理条件下的拉伸力学性能.结果表明：热挤压可以显著减小AZ91合金的晶粒尺寸，其拉伸力学性能与试验温度密切相关；可以通过热处理来改善其拉伸力学性能，其中人工时效及固溶时效工艺均是改善和提高挤压后AZ91镁合金力学性能的有效途径.此外，利用扫描电镜分析了AZ91镁合金拉伸试样的断口形貌，并探讨了其拉伸断裂机制.     

Effect of RE on the ignition-proof, microstructure and properties of AZ91D magnesium alloy

The magnesium alloy is prone to burn during die-casting, which limits its applications severely, so the effect of adding rare earth （RE） on the ignition-proof of AZ91D Mg alloy is studied. The results indicate that the addition of mischmetal RE elements has a remarkable influence on the ignition-proof property of the magnesium alloy. It is found that the ignition temperature of the magnesium alloy can be greatly raised by adding a proper amount of RE. When the amount is 0.1wt%, the ignition temperature reaches 877℃ which is 206℃ higher than that of AZ91D without RE and the mechanical properties of the alloy are also improved, However, the amount of RE must be properly controlled because too much RE would induce grain coarsening and reduce the mechanical properties.     

AZ91压铸镁合金在六偏磷酸盐体系中的微弧氧化工艺

采用六偏磷酸盐体系在AZ91压铸镁合金表面制备了一系列微弧氧化膜层。研究了(NaPO3)6和NaOH质量浓度、电流密度以及氧化时间对微弧氧化膜生长规律的影响,并通过扫描电镜、中性盐雾试验等方法研究了微弧氧化膜层形貌特征及耐蚀性能。结果表明:本试验所制备的微弧氧化膜层的耐蚀性属于尚耐蚀和可用等级,与基体合金相比有大幅度提高。采用六偏磷酸盐体系在AZ91压铸镁合金表面制备耐蚀性微弧氧化膜的最佳工艺参数如下:(NaPO3)6质量浓度为2 g/L,NaOH质量浓度为6 g/L,电流密度为6 A/dm2,氧化时间为10m in。     

Y和Ce对AZ91D镁合金显微组织和力学性能的影响

为了开发低成本、高强度、耐高温的新型镁合金,研究了微量Y、Ce对AZ91D镁合金显微组织和力学性能的影响。研究结果表明:Y和Ce复合加入AZ91D镁合金,能明显细化组织晶粒,从而改善合金在室温和高温下的力学性能。当加入0.6%Ce-0.3%Y(质量分数)时,合金晶粒细化效果较好,其室温和高温力学性能比较理想。