A3钢在氧化硫硫杆菌作用下的腐蚀行为

采用表面分析技术、失重法和电化学测试研究了A3钢在氧化硫硫杆菌(T.t)作用下的腐蚀行为. 扫描电子显微镜(SEM)分析结果表明, 与无菌体系相比, 氧化硫硫杆菌会在A3钢表面形成致密的生物膜和腐蚀产物膜. 去除膜层后, 无菌体系中的试样出现点蚀, 氧化硫硫杆菌体系中试样呈现为均匀腐蚀. 浸泡三周后, 氧化硫硫杆菌体系中A3钢的腐蚀失重远小于无菌体系. 电化学交流阻抗谱(EIS)测试结果显示, 在浸泡10 d后, 氧化硫硫杆菌中的电极表面只存在两个时间常数, 这表明氧化硫硫杆菌会在试样表面形成致密且附着力非常强的产物膜层, 有效地阻碍了腐蚀介质对基体的侵蚀. 极化曲线结果表明, 浸泡20 d后, 氧化硫硫杆菌的存在使得金属具有较小的自腐蚀电流密度.     

Gemini型咪唑啉双季铵盐金属缓蚀剂的合成及其性能

合成了系列新型咪唑啉双季铵盐阳离子缓蚀剂(S-HSJ),研究并讨论了其在5%HCl介质中对铜、铁、铝等金属的缓蚀性能及缓蚀剂结构中亲油基部分碳链长度、缓蚀时间、缓蚀剂浓度等对缓蚀效果的影响. 研究表明,S-HSJ系列咪唑啉双季铵盐对红铜、黄铜、铝及马口铁四种金属均表现出较传统单季铵盐与苯并三氮唑缓蚀剂好的缓蚀性能,S-HSJ-16双季铵盐添加量0.1%时缓蚀效率可达94%~99%,S-HSJ与阴离子表面活性剂复配对铜腐蚀表现出明显协同效应.     

金属缓蚀剂Gemini型咪唑啉双季铵盐的合成及其性能的研究

合成了系列新型咪唑啉双季铵盐阳离子缓蚀剂（S-HSJ）,研究并讨论了其在5%盐酸介质中对铜、铝等金属的缓蚀性能及缓蚀剂结构中亲油基部分碳链长度、缓蚀时间、缓蚀剂浓度等对缓蚀效果的影响。研究表明：S-HSJ系列咪唑啉双季铵盐对红铜、黄铜、铝及马口铁四种金属均表现出较传统单季铵盐与苯并三氮唑缓蚀剂好的缓蚀性能,S-HSJ-16双季铵盐添加量0.1%时缓蚀效率可达94~99%,S-HSJ与阴离子表面活性剂复配对铜腐蚀表现出明显协同效应。     

IMC-80缓蚀剂的研究和应用

合成了具有炔醇基、氨基和季铵结构的系列化合物,并在此基础之上研制出缓蚀剂IMC－80。利用腐蚀失重和电化学方法,对其在CO₂饱和盐水和盐酸体系中的缓蚀性能进行研究.研究结果表明,它们在酸性介质、油田污水介质和含有少量H₂S和CO₂的伴生水介质中具有优良的缓蚀性能.该级蚀剂在中原油田试用,在控制油井及其相关的集油管线腐蚀上,其效果优于美国同类产品CI－203,     

苯并三氮唑及其羧酸酯衍生物对铜缓蚀机理的分子动力学模拟研究

用分子动力学(MD)方法, 模拟计算了5种铜缓蚀剂[苯并三氮唑(BTA)、苯并三氮唑-5-羧酸甲酯(MBTC)、苯并三氮唑-5-羧酸丁酯(BBTC)、苯并三氮唑-5-羧酸己酯(HBTC)、苯并三氮唑-5-羧酸辛酯(OBTC)]与Cu₂O晶体的相互作用. 结果发现, 中性条件下缓蚀剂分子与Cu₂O晶体的结合能均大于酸性条件下的数值, 但两种条件下结合能的大小排序均为OBTC＞HBTC＞BBTC＞MBTC＞BTA. 对体系各种相互作用以及对关联函数g(r)的分析表明, 体系结合能主要由库仑作用提供, Cu₂O晶体中的Cu原子与缓蚀剂分子中的N原子之间形成了配位键. 在与Cu₂O(001)晶面结合过程中, BTA及其衍生物分子发生了扭曲变形, 但形变能远小于体系的非键相互作用能.     

L-蛋氨酸对预腐蚀Q235碳钢缓蚀性能的分子动力学研究

采用失重法、密度泛函理论和分子动力学模拟研究了预腐蚀对L-蛋氨酸在60℃、1M的HCl溶液中对Q235碳钢的影响和缓蚀剂的缓蚀机理。结果表明:预腐蚀作用降低了L-蛋氨酸对Q235碳钢缓蚀作用,缓蚀率下降15%。密度泛函理论和分子动力学模拟结果表明,羧基上的氧原子带有明显的负电荷能够吸附到金属表面形成缓蚀剂膜,发挥缓蚀作用,为成膜缓蚀机理。L-蛋氨酸在没有预腐蚀的Q235碳钢表面吸附分子数为24时,缓蚀剂膜最致密。而L-蛋氨酸在预腐蚀后的Q235碳钢表面吸附时的吸附能显著降低,缓蚀剂在碳钢表面的分布密度也明显下降,这很好解释了预腐蚀作用降低了缓蚀剂缓蚀率的实验结果。本文的研究结果对缓蚀剂的研究和实际应用具有一定的指导意义。     

SDBS与HA缓蚀剂复配的实验与理论研究

通过静态失重法研究了十二烷基苯磺酸钠(SDBS)与六亚甲基四胺(HA)在盐酸溶液中对Q235钢的协同缓蚀效应, 并采用分子动力学模拟从缓蚀剂膜抑制腐蚀粒子扩散的角度对其缓蚀机理进行分析. 结果显示: SDBS和HA单独使用时, 最高缓蚀效率分别为82.82%和79.46%, 复配后最高缓蚀效率可达到92.78%; 与两种缓蚀剂单独使用时相比, SDBS与HA复配后缓蚀剂膜体系中的自由空间明显下降, 削弱了膜内缓蚀剂分子的自扩散能力, 腐蚀粒子在缓蚀剂膜携带下的被动迁移也随之减弱; SDBS与HA复配能更有效抑制腐蚀粒子在缓蚀剂膜中的扩散, 也就是说复配后的缓蚀剂具有更好的缓蚀性能.     

高效液相色谱法测定苯并三氮唑

提出了高效液相色谱法测定苯并三氮唑产品以及工业循环冷却水中苯并三氮唑含量的方法。色谱分离采用Kromasil C18(4.6 mm×250 mm,5μm)色谱柱,以乙腈-水(25+75)为流动相,流量为1.0 mL.min-1,检测波长为260 nm。苯并三氮唑的质量浓度在3.84~76.8 mg.L-1范围内与峰面积呈线性关系,平均回收率为96.4%。     

苯并三氮唑对硫增感溴化银乳剂的过增感效应

采用在曝光前后用苯并三氮唑溶液对未增感的和硫增感的立方体溴化银乳剂涂层的处理方法,考察了苯并三氮唑在溴化银成像过程的两个阶段:曝光潜影的形成阶段和潜影中心得以放大的显影阶段的作用.有意义地发现苯并三氮唑对硫增感溴化银乳剂有明显的过增感效应.实验结果表明:1)对于未增感的立方体溴化银乳剂涂层,在曝光前吸附了苯并三氮唑后会抑制潜影的形成,但曝光后吸附了苯并三氮唑对显影有十分明显的促进作用;2)对于硫增感的立方体溴化银乳剂涂层,曝光前用苯并三氮唑溶液处理后,产生显著的过增感效应,相对感光度可提高4倍左右,在曝光后用苯并三氮唑溶液处理,随着苯并三氮唑浓度的增加对显影也有一定程度的促进作用;3)对于硫增感的溴化银涂层,先经过388 mV的氧化还原缓冲液处理,再经苯并三氮唑溶液处理过的样片的感光度都要较未经缓冲液处理的提高4倍左右,这说明苯并三氮唑对硫增感乳剂产生的过增感效应只与硫敏化中心内(Ag₂S)_n的存在有关,与(Ag)_m是否存在无关.     

绿色聚天冬氨酸复配缓蚀剂对A3碳钢的缓蚀抑雾作用

采用失重法和极化曲线法研究了聚天冬氨酸(PASP)和十二烷基酚聚氧乙烯醚(OP-10)复配对A3碳钢在6mol·L-1HCl腐蚀介质中的协同吸附行为及缓蚀抑雾作用.结果表明:复配缓蚀剂可有效抑制A3碳钢在HC1介质中的腐蚀,当PASP浓度为20g·L-1,缓蚀率可达94%,抑雾率83%;随着温度的升高,复配缓蚀剂的缓蚀性能下降.复合缓蚀剂在钢表面的吸附符合校正的Langmuir模型,吸附过程为放热、熵减的自发过程;复配体系属于阳极型缓蚀剂.     

Modeling of corrosion inhibition of copper-nickel alloy in hydrochloric acid by benzotriazole

The corrosion inhibition of copper-nickel alloy by benzotriazole (BTA) in 1.5 M HCl has been investigated by weight loss and polarization techniques at different temperatures. Maximum value of inhibitor efficiency was 99.8% at 35°C and 0.1 M inhibitor concentration, while the lower value was 86.3% at 65°C and 0.02 M inhibitor concentration. The activation energy values were higher in presence of BTA which indicate that in presence of inhibitor, corrosion reaction requires more energy to occur. Two mathematical models were used to represent the weight loss corrosion rate data with high correlation coefficients. Electrochemical polarization measurements showed that BTA is a mixed type inhibitor.     

Smart Coating Based on Urea-Formaldehyde Microcapsules Loaded with Benzotriazole for Corrosion Protection of Mild Steel in 3.5 % NaCl

Urea-formaldehyde (UF) microcapsules loaded with linseed oil (LO) and benzotriazole (BTA) as core materials have been synthesized by in situ emulsion polymerization. The capsules were characterized by FTIR spectroscopy and particle size analysis. Surface morphology of the microcapsules was analyzed using scanning electron microscopy (SEM). The microcapsules were incorporated into epoxy resin and coated on a mild steel substrate to form a corrosion resistant organic coating. The self-healing property of coatings loaded with different weight % of microcapsules containing LO + BTA was tested by immersion of the UF coated mild steel specimens in 3.5 wt % NaCl solution. It was analyzed through visual inspection, weight loss measurements, and SEM of the scribed region of coating. It was observed that the addition of microcapsules enhances the corrosion resistance of the scratched samples.

     

Effect of polyethylene glycol on corrosion of fresh macroporous silicon in 1.0 M NaOH and application in determination of porosity and thickness by gravimetric measurement

Abstract

This work presents on improvement in gravimetric measurement for determining the porosity and thickness of microporous silicon. Herein, the corrosion of fresh macroporous silicon (f-MPSi) in 1.0?M NaOH with different concentrations of polyethylene glycol (PEG 200/400/600) was studied by weight loss measurement and scanning electron microscopy (SEM). The results showed that the corrosion rate decreased with increasing polyethylene glycol concentration, and increased with an increase in temperature. Polyethylene glycol can inhibit the corrosion of f-MPSi in NaOH solution. Moreover, 1.0?M NaOH/PEG 600 (10%) can be used as the optimized solution to remove f-MPSi for measuring its porosity and thickness by gravimetric measurement.     

The Effect of Magnetic Field on Corrosion Inhibitor of Copper in 0.5 M HCl Solution

Corrosion of metals within magnetic field (MF) had been actively studied for better understanding of the corrosion mechanism when the magnetic sources are presented. However, findings regarding the effect of MF on metals are inconclusive, and there is a lack of studies of MF interaction with various corrosion control techniques, such as corrosion inhibitor. In this paper, the effect of MF on the corrosion of copper in 0.5 M hydrochloric acid (HCl) solution, with or without corrosion inhibitor were studied. Benzotriazole (BTA), a common copper inhibitor, was chosen as the inhibitor for this study. To determine the effect of MF, a MF of 13 mT, generated using a pair of permanent neodymium magnet, was applied during weight loss and electrochemical tests. The results showed that corrosion inhibition efficiency of BTA decreased when it is under an applied MF. A decrease from 47% to 60% in inhibition efficiency had been observed for all samples in an applied MF. By using Tafel extrapolation technique on the polarization curves, it revealed that MF had increased the corrosion current of copper in HCl, causing a decrease in the inhibition efficiency.     

可溶盐沉积对碳钢大气腐蚀的影响

采用实验室模拟方法,在温度298 K、相对湿度(85±5)％的条件下,对经Na2SO4、(NH4)2SO4、NH4Cl 和NaCl沉积后的A3钢在净化空气中的大气腐蚀行为进行了研究.腐蚀动力学曲线表明,尽管沉积了不同的可溶盐,但随暴露时间的增加,A3钢单位面积的腐蚀质量损失均服从Δm/A=K•tb公式. 不同盐对A3钢的腐蚀失重影响有所不同. 用FTIR、SEM以及XRD分析研究了不同盐沉积的试样腐蚀4周后的组成和形貌,发现腐蚀主要沿着沉积了可溶盐的区域进行,并随着腐蚀时间的延长,生成不同的腐蚀产物,这些腐蚀产物使A3钢最初的快速腐蚀现象有所减缓.     

Optimized relaxivity and stability of [Gd(H(2,2)-1,2-HOPO)(H2O)]- for use as an MRI contrast agent

Relaxometry and solution thermodynamic measurements show that Gd(H(2,2)-1,2-HOPO) is a good candidate as a contrast agent for magnetic resonance imaging (MRI-CA). Acidic, octadentate H(2,2)-1,2-HOPO forms a very stable Gd(III) complex [pGd=21.2(2)]. The coordination sphere at the Gd(III) center is completed by one water molecule that is not replaced by common physiological anions. In addition, this ligand is highly selective for Gd(III) binding in the presence of Zn(II) or Ca(II). The symmetric charge distribution of the 1,2-HOPO chelates is associated with favorably long electronic relaxation time T1,2e comparable to those of GdDOTA. This, in addition to the fast water exchange rate typical of HOPO chelates, improves the relaxivity to r1p=8.2 mM-1 s-1 (0.47 T). This remarkably high value is unprecedented for small-molecule, q=1 MRI-CA.     

Corrosion of copper in aerated synthetic sea water solutions and its inhibition by 3-amino-1,2,4-triazole

Corrosion of copper in aerated synthetic sea water (3.5% NaCl) solutions and its inhibition by 3-amino-1,2,4-triazole (ATA) have been studied using electrochemical, gravimetric, and pH measurements, along with Raman spectroscopy. Electrochemical measurements indicated that the presence of ATA and the increase of its concentration suppress the corrosion process on the copper surface. This effect decreases cathodic, anodic, and corrosion (jcorr) currents and corrosion rates (Kcorr), while increasing polarization resistance (Rp), surface coverage (theta), and inhibition efficiency (IE%). Weight loss measurements indicated that the dissolution of copper and the accompanying change of pH decreased to a minimum even after 24 days immersion due to the presence of ATA and the increase of its concentration. Raman investigations revealed that the inhibition of copper corrosion is achieved by strong adsorption of ATA molecules onto the copper surface, preventing it from being corroded easily.     

A study of corrosion on a rotating iron disk electrode

Corrosion of iron in slightly acidified sodium sulphate solutions (mainly pH 4.5) in the open air was studied with a rotating disk electrode method at room temperature.Microscopic observations of corroded iron disk surfaces in the pH 4.5 solution revealed that iron initially corrodes locally with the formation of round pits of 10–30 μm in diameter and of(0.6–1.3) × 10³ in number per apparent square centimetre followed by the U-shaped brown protective wall formation of precipitates (rust) outside the pits. Each protective wall is formed along the lines of flow of the solution adjacent to the iron surface and each pit is located near the upstream end of the wall. Steady state of corrosion sets in when the parts of surface area surrounded by the wall are completely covered with a microscopically non-porous rust film.The amount of iron in the rust film and the total amount of corrosion of iron including that in the film increase parabolically with the increase in the time of immersion. The amount of iron in the film increases in proportion to the total amount of corrosion independently of the speed of rotation of the disk electrode even in the steady state.The fraction of area of iron surface not covered with the film decreases with time and reaches a certain fixed value in the steady state: the value is smaller at higher rotational speed. The corrosion rate is proportional to the uncovered area, as the corrosion is near the steady state. The pH of the bulk solution increases as corrosion progresses.The corrosion rate of iron can be well interpreted by assuming that the rate is controlled by the diffusion of oxygen from the bulk solution to the surface of iron and that the rust film on iron impedes the diffusion of oxygen.     

Electrolessly Plated Ni-Zn（Fe）-P Alloy and Its Corrosion Resistance Properties

The autocatalytic deposition of Ni-Zn(Fe)-P alloys has been carried out on substrate of carbon steel from a bath containing nickel sulfate, zinc sulfate, sodium hypophosphite, sodium citrate and boric acid. The effects of pH and the molar ratio of NiSO4/ZnSO4 on the deposition rate and the composition of deposits have been studied. It was found that the presence of zinc sulfate in the bath has an inhibitory effect on the alloy deposition. The structure and the surface morphology of Ni-Zn(Fe)-P coatings were characterized with XRD and SEM, respectively. The alloys plated under the experimental conditions consisted of an amorphous phase coexisting with a crystalline cubic Ni phase (poly-crystalline). The surface morphology of the coating is dependent on the deposition parameters. The corrosion resistance of the Ni-Zn(Fe)-P deposits was examined via mass loss tests and anodic polarization measurements, respectively. The results show that the surface morphologies of the deposits and the corrosion resistance of the deposits have been improved. The results of mass loss tests almost accord with those of anodic polarization measurements. The corrosion mechanisms of Ni-Zn(Fe)-P alloys in NaCl and NaOH solutions were investigated by means of EDX. The deposit immersed in an NaCI or an NaOH solution contains more content of oxygen and less contents of the metals(except Fe) than that placed in air, which shows that the NaCl or NaOH solution can accelerate the oxidation of the deposit.     

Effect of alkali pre-treatment on hydrolysis of regenerated cellulose fibers (part 1: viscose) by cellulases

Viscose fabrics were pre-treated with liquid ammonia and NaOH solutions. The pre-treatment was varied in alkali concentration, time and drying conditions. Subsequently, the samples were subjected to cellulase hydrolysis. Microscope and SEM pictures were taken; weight loss, reducing sugar and protein content in solution, water retention value and tensile strength were determined. It was found, that the activity of cellulases is increased for viscose and that short time alkali pre-treatment reduces tensile strength due to changes in the substrate. The drying and drying conditions (wet, line dry of freeze dry) have great impact on the hydrolysis rate. A connection between the rate of protein loss in solution and changed water retention value was established. Weight loss of 80% of cellulose fabric was achieved within 4 h of enzyme hydrolysis.