Fe基合金钝化膜点蚀敏感性的电化学研究

应用电位扫描、交流阻抗、电化学噪声等方法研究Fe及其合金在中性水溶液中钝化膜的形成过程、电子性质和点蚀敏感性以及不同微组织结构间的相互作用.结果表明:由Mott-Schot tky关系式确定钝化膜的电子性质仅限于较窄的低电位范围;在较高电位下,电容倒数与电位的线性关系当归因于钝化膜厚度的变化;反映钝化膜缺陷的电子性质与合金的点蚀敏感性有关,钝化膜电子供给体浓度越高,点蚀倾向越强。钝化膜的电子性质受钝化膜形成电位、钝化剂种类以及合金的微组织结构影响;不同微组织结构之间存在相互作用,这种相互作用能够诱导缺陷较大的一方发生点蚀。铁素体与珠光体和/或马素体相互作用时,点蚀在铁素体形成和发展.     

不锈钢钝化膜耐蚀性与半导体特性的关联研究

通过极化曲线、交流阻抗谱和钝化膜半导体特性等电化学测量，研究了经电化学阳极氧化处理的不锈钢钝化膜在0.5 mol•L^-1 NaCl溶液中耐蚀性能与其半导体特性的关系，进一步探索电化学改性处理不锈钢钝化膜的耐蚀机理. 结果表明，不锈钢钝化膜在负于平带电位范围表现为p型半导体，在高于平带电位范围表现为n型半导体，这主要与组成钝化膜的Fe和Cr氧化物半导体性质有关. 与自然条件下形成的不锈钢钝化膜比较，发现经过电化学阳极氧化后不锈钢钝化膜具有较低的施主与受主浓度，平带电位负移，说明阴离子在钝化膜表面发生吸附. 低的施主与受主浓度及钝化膜表面负电荷的增强，可有效排斥侵蚀性Cl^－在钝化膜表面的特性吸附，有利于提高不锈钢的耐局部腐蚀性能.     

不锈钢过钝化和后处理研究

在载波钝化膜研究中,我们注意到能使钝化膜稳定性显著提高的载波幅值正半周都进入到不锈钢过钝化区中,因而推断在过钝化区生成的过钝化膜在低电位区自然状态下的稳定性也可能会有所提高。本文报道对过钝化膜的进一步研究。     

不同浓度比的硫酸根和氯离子溶液中钝化膜的半导体特性转变机制研究

800合金作为核电站蒸汽发生器的一种关键材料,服役环境下其表面钝化膜的特性一直是人们研究的热点. 本文用Mott-Schottky方法研究了800合金在不同硫酸根离子和氯离子浓度比的溶液中钝化膜的半导体特性,并结合电化学阻抗谱（EIS）、扫描电镜（SEM）、扫描电化学显微镜（SECM）研究了钝化膜的耐蚀性和表面活性. Mott-Schottky结果表明,800合金表面钝化膜的半导体特性与溶液中硫酸根、氯离子的浓度比有关,随硫酸根与氯离子浓度比的降低,半导体特性发生转变. 当硫酸根与氯离子的浓度比较高时,钝化膜为p型半导体;而当硫酸根与氯离子的浓度比较低时,钝化膜为n型半导体. EIS、SECM、SEM结果表明,随浓度比的降低钝化膜由过钝化溶解转为明显的点蚀特征,钝化膜表面活性增加. 钝化膜特性的改变与其半导体类型的转变密切相关,而半导体特性的转变由氯离子、硫酸根离子在800合金钝化膜表面的竞争吸附所致,其在表面的竞争吸附直接影响钝化膜表面发生的化学反应,改变电极/溶液界面电势差,使钝化膜中的空位类型改变,最终决定半导体类型.     

载波钝化和钼酸盐后处理对不锈钢钝化膜性能的影响

一般认为交流电对金属的腐蚀过程具有加速作用,但我们发现,在直流电位基础上叠加适当波形、幅值和频率的交流电对不锈钢进行载波钝化,尔后再进行适当后处理可使钝化膜的稳定性提高,我们曾就不经后处理的载波钝化过程进行过探讨,本文着重探讨钼酸盐后处理对载波钝化膜表面状态和化学稳定性改善的作用机理。     

不同浓度比的硫酸根和氯离子溶液中钝化膜的半导体特性转变机制研究

800合金作为核电站蒸汽发生器的一种关键材料,服役环境下其表面钝化膜的特性一直是人们研究的热点.本文用Mott-Schottky方法研究了800合金在不同硫酸根离子和氯离子浓度比的溶液中钝化膜的半导体特性,并结合电化学阻抗谱(EIS)、扫描电镜(SEM)、扫描电化学显微镜(SECM)研究了钝化膜的耐蚀性和表面活性.Mott-Schottky结果表明,800合金表面钝化膜的半导体特性与溶液中硫酸根、氯离子的浓度比有关,随硫酸根与氯离子浓度比的降低,半导体特性发生转变.当硫酸根与氯离子的浓度比较高时,钝化膜为p型半导体;而当硫酸根与氯离子的浓度比较低时,钝化膜为n型半导体.EIS、SECM、SEM结果表明,随浓度比的降低钝化膜由过钝化溶解转为明显的点蚀特征,钝化膜表面活性增加.钝化膜特性的改变与其半导体类型的转变密切相关,而半导体特性的转变由氯离子、硫酸根离子在800合金钝化膜表面的竞争吸附所致,其在表面的竞争吸附直接影响钝化膜表面发生的化学反应,改变电极/溶液界面电势差,使钝化膜中的空位类型改变,最终决定半导体类型.     

模拟混凝土孔溶液中钢筋钝化膜的光电化学方法研究

利用光电化学方法研究了钢筋在模拟混凝土孔溶液中钝化膜的电子性质，结果表明，钢筋在该溶液中形成的钝化膜是一种无定形的ｎ－型半导体成相膜，膜由多种铁氧化物组成，其组成受溶液中的离子、ＰＨ值、成膜电位影响，腐蚀抑制ＮａＮＯ２影响钝化膜的组成和生长过程，从而提高钢筋的抗氯离子点蚀能力。     

镁合金在含F－的NaOH溶液中钝化行为的电化学研究

采用极化曲线、电容-电位曲线、Mott-Schottky分析以及电化学阻抗(EIS)等电化学方法研究了镁合金在含F^－ NaOH溶液中的阳极钝化行为. 结果表明, 在－1.2～1.8 V的电位范围内, 镁合金在含F^－的NaOH溶液中发生阳极钝化. 所形成的钝化膜表现出n型半导体的导电特性. 在0.7～1.8 V的电位范围内, 随着F^－浓度增大, 镁合金的阳极极化电流密度呈现出随着电位升高而逐渐增大的趋势, 随着F^－浓度增大这一趋势逐渐减弱. 并且F^－浓度的增大使得镁合金表面空间电荷层电容和钝化膜的载流子密度都不断减小. 通过极化曲线和电化学阻抗共同说明, 在5%的Na₂SO₄溶液中, NaOH溶液中阳极钝化后的镁合金随着钝化体系中F^－浓度的增加其耐蚀性逐渐减弱.     

不锈钢钝化膜在醛化液中自钝能力的研究

采用电偶极化和恒电位极化等电化学方法,评价１Ｃｒ１８Ｎｉ９Ｔｉ不锈钢阳极钝化膜和ＳＵＳ３６不锈钢原始钝化膜在７０℃的维尼维醛化液｛Ｈ２ＳＯ４（２４０ｇ／ｌ＋Ｎａ２ＳＯ４（７０ｇ／ｌ）＋ＨＣＨＯ（２５ｇ／ｌ）＋「Ｆｅ＾３＋」（３５．４＊１０＾－６）＋「Ｃｌ＾－」（２４０ｍｇ／ｌ）｝中的自钝能力,探讨醛化液组分、Ｆdisplay status     

不锈钢载波钝化膜的半导体性质

运用交流阻抗法和光电化学法研究了不锈钢载波钝化膜层的半导体性质。讨论了交流阻抗测试中扰动频率的变化对Mott-Schottky曲线的影响，讨论了不锈钢载波钝化膜的n/p型、杂质施主密度和平带电位等半导体性质，同时结合光电化学法对交流阻抗测试结果进行了验证分析，实验结果认为不锈钢载波钝化膜层具有与直流钝化膜层相似的半导体性质，并通过膜层的组成结构对其半导体性质作了分析。     

In situ Study of Scanning Tunneling Microscopy On Passivation and Pit Corrosion of Stainless Steel

Traditional ways to investigate passivation and pitting is indirect electrochemical method.In this article, direct information for topography of ultrathin passivating film is obtained by employing in-situ ECSTM to stainless steel (Cr11Ni13 SS). Passivating potentials including 0V,0.2V, 0.5V and 0.8V (Vs.SCE) are applied to the sample in 0.5M H₂SO₄+0.02M NaCl respectively, while surface topography is recorded by STM on the same region, with dimension of 800×800 nanometers. ECSTM result provides a microscopic explanation of EIS. The result describes as fig. 1 and fig. 2.     

Improvement of pitting corrosion resistance of a biomedical grade 316LVM stainless steel by electrochemical modification of the passive film semiconducting properties

In the present paper we show that a significant improvement in pitting corrosion resistance of a biomedical grade stainless steel, 316LVM, can be achieved by the formation of a surface passive oxide film under cyclic potentiodyanamic polarization (passivation) conditions. A complete absence of pitting in physiological simulating solutions was demonstrated, while the electrochemically formed passive film maintained its very high pitting resistance even at higher chloride concentrations in the bulk solution. The improvement in the film’s pitting corrosion resistance was correlated with its semiconducting properties.     

Effect of pH,temperature, and H2O2 on the electrochemical oxidation behavior of iron in perchlorate solutions

The effects of pH, temperature, and H₂O₂ on the electrochemical oxidation behavior of iron were determined in perchlorate solutions. Iron exhibited four distinct oxidation behaviors in perchlorate solutions that had a pH of 3.0. First, the active dissolution potential with two current waves was observed in the range of ?0.7 to 0 V. Second, the range of stable passivation was observed between 0 and 0.3 V. Third, unstable passivation was observed in the range of 0.3 to 1.2 V. Finally, pitting corrosion was observed at a potential above 1.2 V. The increase in pH stabilized the passivation of iron, whereas the increase in temperature had a negative influence on both the passivation and pitting behaviors of iron. The presence of H₂O₂ at concentrations less than 1.45 mM had an adverse effect on the formation of the passive oxide layer. However, H₂O₂ at concentrations greater than 1.45 mM exerted a beneficial influence on the formation of stable iron oxide in the active dissolution region. In addition, H₂O₂ mitigated the pitting corrosion of iron regardless of the H₂O₂ concentration.     

基于电化学噪声研究模拟海洋大气环境下304不锈钢的点蚀行为

基于电化学噪声技术建立了不锈钢海洋大气点蚀监测系统,利用该系统对处于干湿循环环境下不锈钢的点蚀行为进行监测. 使用时域谱图、时域统计、频域谱图和散粒噪声理论等分析方法对采集到的电化学噪声数据进行处理分析,并结合动电位极化法,形貌分析法共同研究不锈钢的点蚀行为. 研究结果表明,304不锈钢在模拟海洋大气环境下的点蚀行为分为钝化、亚稳态点蚀和稳态点蚀三个阶段. 在钝化阶段,电位电流噪声信号出现少量的同步异向波动,腐蚀事件发生频率高,平均电量低;在亚稳态点蚀阶段,电位电流噪声信号出现大量的同步同向波动,腐蚀事件发生频率降低,平均电量上升,通过扫描电镜观察蚀点;在稳态点蚀阶段,电位电流噪声信号不仅存在大量的同步同向波动,还出现了同步异向波动,腐蚀事件发生频率较低,平均电量大幅度上升,通过扫描电镜观察到电极表面出现小而浅的蚀点. 而动电位极化法可以证实304不锈钢点蚀的发生. 两种分析方法所得结果具有较好的一致性,证明该监测系统很好地实现了对模拟海洋大气环境下304不锈钢点蚀行为的连续监测,并能判断点蚀的发生.     

磁场对316L不锈钢微生物腐蚀行为的影响

采用循环极化、微生物分析法、扫描电镜及表面能谱分析等方法,研究了磁场对316L不锈钢在含硫酸盐还原菌(SRB)的土壤模拟溶液中的腐蚀行为。结果表明,磁场可以抑制SRB的生长;未外加磁场时316L不锈钢表面膜层以局部堆积为主,加有磁场时,局部堆积明显减小,膜层均匀致密的排列于基体表面;无论有或没有外加磁场,316L不锈钢表面均发生钝化膜破裂型点蚀,未外加磁场时的点蚀电位低于加有磁场时的。在相同的浸泡时间,未外加磁场时循环极化滞后环面积明显比加有磁场时的大,说明磁场可以有效抑制316L不锈钢点蚀的形成与发展,降低316L不锈钢的点蚀诱发能力。     

镀锡层上钛-磷复合体系钝化膜的制备与表征

通过钛盐与磷酸盐体系复配的方法,在镀锡层表面得到了一种钛-磷复合体系钝化膜. 利用扫描电子显微镜(SEM)、X射线光电子能谱 (XPS)、盐雾试验、Tafel极化曲线和EIS交流阻抗谱测试等方法,研究了所得钝化膜的表面形貌、组成与耐蚀性能. 结果表明,得到的钝化膜层的主要组成成分为Ti₃(PO₄)₄nH₂O和TiO₂,在镀锡层表面结晶细致并有封孔的作用,因此有很好的耐蚀性能.     

含钪铝镁合金微生物腐蚀行为的研究

采用电化学、微生物学和表面分析的方法，研究了厌氧环境硫酸盐还原菌（subtere ducing bacteria，SRB）溶液中Al-6Mg-Zr添加Sc元素前后的腐蚀行为。结果表明，添加Sc元素后，合金的氧化膜更加致密，具有更好的保护作用，使电极开路电位正移100mV左右，同时Sc元素的加入降低了材料在SRB菌液中的点蚀敏感性，使材料耐微生物腐蚀性能得到提高，但是添加Sc后的合金对SRB更加敏感。显微观察表明添加Sc前后两种铝镁合金的腐蚀特征均为点蚀，能谱分析表明随浸泡时间增加，腐蚀越来越严重，腐蚀产物堆积和阳极金属溶解造成进一步腐蚀。     

Pitting of Al and Al–Si alloys in KSCN solutions and the effect of light

The pitting corrosion susceptibility of pure Al and three Al-Si alloys, namely (Al-6%Si), (Al-12%Si) and (Al-18%Si) has been studied in 0.04 M KSCN solution. Measurements were carried out under the effect of various experimental conditions using cyclic polarization, potentiostatic and galvanostatic techniques. In all cases, the potentiodynamic anodic polarization curves do not exhibit active dissolution region due to spontaneous passivation. The passivity is due to the presence of a thin film of Al₂O₃ on the anode surface. The passive region is followed by pitting corrosion, at a certain critical potential, pitting potential (E_pit), as a result of breakdown of the passive film by SCN^? anions. Cyclic polarization measurements allowed the determination of the pitting corrosion parameters, namely the pitting potential and the repassivation potential (E_rp). Alloyed Si decreased the passive current (j_pass) and shifted both E_pit and E_rp towards more positive values. Thus alloyed Si suppressed pitting attack. The effect of illumination on passivity and the initiation of pitting corrosion on Al in KSCN solutions was also studied. It is observed that illumination of Al leads to an increase in its pitting corrosion resistance-apparent from j_pass, E_pit, and E_rp measurements in aggressive KSCN solutions.     

The effect of molybdenum on corrosion of low-temperature nitrided stainless steels in sulphate–chloride solution

Resistance of stainless steels to pitting corrosion is strongly enhanced by nitriding at 380–450°C. In this work, anodic behaviour of steels with 0.13, 2.1, 4.5 and 6.1 wt% Mo was studied before and after nitriding at 450°C for 30 h which gave 13.0–15.8 wt% N at the surface. Electrochemical measurements were carried out in 0.1 M Na₂SO₄ + 0.4 M NaCl at pH 3.0. Nitriding of steels with lower Mo contents (0.13 and 2.1 wt% Mo) enhanced the resistance to pitting corrosion; steels with higher Mo contents retained their high resistance to pitting but underwent an activation. Nitrogen increased anodic reactivity in initial stages of polarisation, and it also increased the passivation rate. X-ray photoelectron spectroscopy analysis showed that anodic films on nitrided steels contained oxides at the outer surface and Cr–N species deeper from the surface. The enhanced resistance to pitting corrosion of low-temperature nitrided steels is explained by the increased anodic reactivity which leads to the formation of a salt-type film with Cr/Fe oxides and Cr–N species.In Honour of Professor Kurt Schwabe.     

多孔硅表面钝化对其发光性能的影响

报道多孔硅（PS）的表面钝化对其光致发光（PL）和电致发光（EL）的影响。PL和EL谱表明,经钝化处理的PS的PL和EL强度明显增强,且发光峰位较大蓝移;存放实验表明,经钝化处理的PS的PL和EL发光强度和发光峰位具有较好的稳定性;I～V曲线显示,经钝化处理的PS发光器件具有较低的启动电压。这些结果表明：用钝化处理的方法是提高PS的PL和EL强度和稳定性及改善其器件性能的有效途径。