Urinary levels of nickel and chromium associated with dental restoration by nickel-chromium based alloys

This paper aims to investigate if the dental restoration of nickel-chromium based alloy(Ni-Cr) leads to the enhanced excretions of Ni and Cr in urine.Seven hundred and ninety-five patients in a dental hospital had single or multiple Ni-Cr alloy restoration recently and 198 controls were recruited to collect information on dental restoration by questionnaire and clinical examination.Urinary concentrations of Ni and Cr from each subject were measure by graphite furnace atomic absorption spectrometry.Compared to the control group,the urinary level of Ni was significantly higher in the patient group of < 1 month of the restoration duration,among which higher Ni excretions were found in those with either a higher number of teeth replaced by dental alloys or a higher index of metal crown not covered with the porcelain.Urinary levels of Cr were significantly higher in the three patient groups of <1,1 to <3 and 3 to <6 months,especially in those with a higher metal crown exposure index.Linear curve estimations showed better relationships between urinary Ni and Cr in patients within 6-month groups.Our data suggested significant increased excretions of urinary Ni and Cr after dental restoration.Potential short- and long-term effects of Ni-Cr alloy restoration need to be investigated.

Chromium Electroplating of Aluminium Alloys Using Electroless Nickel as Underlayer

The growing demand for chromium coated aluminium components especially for the automotive industry is due to their favourable physical properties (density, strength to weight ratio etc.). However, their frequent use under harsh environmental conditions renders them corrosion sensitive and consequently they need to be protected. An approach that has been applied in industry is to directly electroplate nickel onto aluminium substrate prior to a top metallic finish;however, in components with complex geometry, certain areas could become exposed to corrosion attack due to poor surface coverage during plating. In this study, a modified electroless nickel undercoat was applied to pre-treated aluminium alloys prior to duplex nickel and chromium plating with a view to enhance corrosion resistance, improve coating adherence and durability, and overall, to achieve substrate protection. Hexavalent and trivalent chromium were applied to pre-treated Al 1050 and Al 6061 following electroless nickel deposition, and plating performance was assessed by surface and corrosion techniques, while durability was measured by scratch, adhesion and hardness tests. Overall, while chromium plating with an electroless nickel undercoat did not improve corrosion resistance or hardness of the materials, it provided an additional protective layer for the substrate with a potential for longer term durability.

电感耦合等离子体发射光谱法同时测定镍-铬基高温合金中铝、钴、铁、锰4种元素含量

试样采用盐酸+硝酸+氢氟酸溶解,用电感耦合等离子体发射光谱法(ICP-OES)测定镍-铬基高温合金中铝、钴、铁、锰元素。本研究先优化了仪器工作参数,再选择了铝、钴、铁、锰待测元素分析线分别为392.401 nm、228.616 nm、259.939 nm、257.610 nm,最后确定了待测元素不受共存元素和基体的影响,基体的其他干扰可以通过背景校正而消除。通过测定标准物质对方法的精密度、准确度、检出限进行考察,各元素测定结果的平均值与标准值接近,RSD<5%(11),检出限均小于0.0006%。本检测方法快速而且准确,适用于实际生产中镍-铬基高温合金样品多元素的批量检测。

WIDE-BAND LASER CLADDING: WEAR AND CORROSION RESISTANCE OF A Ni-BASED ALLOY

A novel wide-band laser cladding system, with high rate of cladding, has been developed in the present work. The system mainly consisted of a 5kW CO2 laser, an automatic powder feeder and a wide-band scanning rotative polygon mirror which can produce a linear or rectangular focused laser beam. Using this system, a Ni-Cr-Si-B alloy powder was cladded on the surface of type 321 austenitic stainless steel in order to improve its wear and corrosion resistance. The pitting corrosion, high temperature oxidation and wear tests were conducted in order to evaluate the properties of the laser cladded layer. The results demonstrated that the cladded layer can significantly improve the adhesive wear and pitting corrosion resistance of the substrate. Moreover, the cladded layer exhibited good oxidation resistance, which is almost the same as that of GMR-235D Ni-based superalloy.

Utilization of Special Potential Scan Programs for Cyclic Voltammetric Development of Different Nickel Oxide-Hydroxide Species on Ni Based Electrodes

Special potential scan programs were designed for cyclic voltammetric development of β-NiOOH or γ-NiOOH/ β-NiOOH mixtures on the surface of nickel or nickel-chromium (80:20) alloy electrodes in NaOH 0.10 M. The pro- grams consisted on changing the anodic or cathodic switching limit to facilitate the chemical reactions taking place ei- ther between Ni(II) hydroxides or between Ni(III) oxides-hydroxides. The electrochemical charge density under the oxidative wave, observed at Ni or Ni-Cr electrode surfaces at approximately 0.48 V (vs SCE), remained almost con- stant with the number of cv cycles after approximately 600 cv cycles at 0.050 V/s. Thus, it can be suggested that a stable proportion of Ni(II)/Ni(III) oxides-hydroxides was obtained on the electrode surfaces. The relative amounts of β-NiOOH or γ-NiOOH species were calculated from the electrochemical charges under their reduction waves in the voltammetric experiments. Higher charge densities were always obtained with Ni-Cr alloy electrodes as compared to pure Ni electrodes. Linear relationships were obtained in our study on the dependence of the oxidative peak current with the square root of the scan rate at a scan rate range between 0.01 V/s and 0.16 V/s.

不同熔附金属对前牙烤瓷熔附金属全冠修复疗效

目的对比研究镍铬合金与金沉积对前牙烤瓷熔附金属(porcelain-fused-to-metal crown,PFM)全冠修复患者的应用效果以及对龈沟液(gingival crevicular fluid,GCF)炎症因子的影响。方法选入2020年9月-2022年2月在本院接受前牙PFM全冠修复的患者86例(86颗牙),根据修复材料不同分为镍铬合金组和金沉积组,每组43例(43颗牙)。比较两组的治疗效果、GCF炎症因子水平等指标。结果金沉积组修复体颜色、边缘密合度、边缘着色及继发龋均显著优于镍铬合金组(P<0.05),在修复体折裂瓷崩方面,两组无明显差异(P>0.05);修复6个月后,金沉积组GI、PD、GCF和GCF中TNF-α、IL-6、IL-1β和MMP-2水平水平均显著低于镍铬合金组(P<0.05);金沉积组满意度显著高于镍铬合金组(93.02%vs.74.42%,P<0.05)。结论镍铬合金与金沉积均是前牙PFM全冠修复的常用材料,而后者对患者局部牙周组织影响较小,在减轻GCF炎性因子水平、提高修复美观度及患者满意度方面优于前者。

Ni-Cr合金真空钎焊金刚石界面反应的热力学与动力学分析

采用Ni-Cr合金钎料 ,适当控制钎焊工艺 ,实现了金刚石与钢基体的高强度连接。采用扫描电子显微镜 (SEM)和能谱仪 (EDS)及X射线衍射结构分析了真空加热条件下 ,Ni-Cr合金钎料与金刚石之间的界面反应 ,探讨了钎料与金刚石界面处碳化物的形成机理。结果表明 ,Ni-Cr合金钎料中的Cr和少量Si在金刚石表面富集并与金刚石中的C发生反应生成Cr7C3 、Cr3 C2 碳化物 ,其中Cr7C3 呈笋状生长 ,Cr3 C2 呈片状 ,可能有少量SiC生成。金刚石与钎料的界面形成了金刚石 \SiC \Cr3 C2 \Cr7C3 钎料的梯度材料 ,实现了Ni-Cr合金与金刚石的冶金结合。

三价铬体系铬-镍合金电镀工艺及镀层性能的研究

以工业级的革鞣剂和硫酸镍为主盐,研究了硫酸盐体系电镀铬镍合金工艺配方与工艺规范、阴极电流密度、pH值、温度对镀层的影响,讨论了镀层中的铬含量对镀层耐腐蚀性和钎焊性的影响。通过工艺调整使合金中铬质量分数控制在10%～50%。镀层中铬质量分数在10%以下时,镀层有良好的钎焊性。通过测定镀层腐蚀电流,比较其耐腐蚀性,镀层中铬质量分数在25%～40%时,镀层的耐腐蚀性较好,铬质量分数为30%时,腐蚀电流最小可达4.18×10-7A,采用有隔膜电镀槽,提高了镀液的稳定性。

电沉积纳米晶镍-铁-铬合金

采用直流和脉冲电沉积方式从三价铬的氯化物镀液中沉积出镍 -铁 -铬纳米合金镀层。利用扫描电镜分析镀层形貌及晶粒尺寸 ,研究了沉积速率、电流效率、三价铬浓度及pH值随沉积时间的变化关系。结果表明 ,脉冲电沉积所得镀层的结构和性能均优于直流电沉积 ,这是由于脉冲电沉积存在断电时间 。

三价铬体系电镀铬-镍合金工艺

采用工业铬酐 -甲醇还原法制备三价铬主盐 ,给出了电镀铬 -镍合金工艺配方与工艺规范并对镀层性能进行了测试。电流密度对镀层的成分和性质有较大的影响。含铬量 6 3%左右的铬 -镍合金镀层具有较好的硬度和耐蚀性。双层镍作中间镀层的装饰性铬 -镍合金试件经 16h铜加速盐雾试验 (CASS)后 ,外观未出现不良现象 ,镀层显示了较好的耐蚀性能。

Ni-Cr合金在三价铬水溶液中的电沉积

Al基体上电镀Ni-Cr合金可以大幅度改善其防护性能，为此以铝为基体，以柠檬酸为配位体，在三价铬的硫酸盐-氯化物镀液中电沉积了光亮平滑、质量优良、与基体结合良好、Cr含量为1．4％～26．0％、厚度为10～30 μm、最大电流效率可达58．0％的Ni-Cr合金镀层。研究了电流密度、温度、pH值、CrCl3浓度等参数对电流效率和镀层厚度的影响。电位滴定显示，镀液的缓冲能力良好；阴极极化曲线表明，Ni-Cr合金的电沉积符合Tafel方程。SEM形貌观察发现，Ni-Cr合金表面布满了均匀密集的球形小颗粒；通过XRD检测确定，Ni-Cr合金为晶体结构，Cr含量升高使晶粒变小；Ni-Cr镀层的耐蚀性较好，Cr含量的升高有利于耐蚀性的提高。

电流密度对电沉积CoCrNi中熵合金薄膜显微组织及耐蚀性的影响

[目的]目前CoCrNi中熵合金的制备多采用粉末冶金、熔炼等工艺,存在操作繁琐、成本高等问题。电沉积技术不仅具有操作简单、成本低廉、能耗小等优点,还可通过改变工艺参数来调控薄膜的成分和组织结构。[方法]采用直流电沉积技术在铜基体上制备CoCrNi中熵合金薄膜。采用X射线衍射分析仪(XRD)、场发射电子探针扫描分析仪(FE-EPMA)和能谱仪(EDS)分析了不同电流密度下所得CoCrNi合金薄膜的晶相结构、形貌及元素分布,并通过电化学测量技术研究了电流密度对薄膜耐蚀性的影响。[结果]CoCrNi合金薄膜由球状颗粒及颗粒团簇组成,呈非晶态结构;薄膜中的Co、Cr和Ni元素都均匀分布。随电流密度增大,膜层中Co的质量分数先减小后趋于平缓,Cr的质量分数先增大再变平缓,Ni的质量分数则变化不大。随着Cr含量和显微硬度的增大,CoCrNi合金薄膜表面开始出现微裂纹,耐蚀性先变好后变差。[结论]电流密度对CoCrNi合金薄膜的耐蚀性有显著影响,在电流密度100 mA/cm^(2)下电沉积所得CoCrNi中熵合金薄膜虽然存在微裂纹,但其耐蚀性最佳。

电沉积Ni-Cr合金工艺研究

含有一定量Cr的Ni-Cr镀层具有良好的耐磨、耐腐蚀性能。选取柠檬酸钠作为配位剂,用动电位扫描法研究了电沉积Ni-Cr合金时的阴极行为,同时对镀层的耐腐蚀性进行了试验。试验结果表明:镀液中加入配位剂柠檬酸钠可以提高阴极极化;pH值、阴极电流密度、配位剂对镀层中铬含量影响较大,在一定范围内增大pH值,增加配位剂的用量,提高电流密度,有利于提高镀层中铬的含量,最佳工艺条件为pH值为2.5,阴极电流密度为25A/dm2,镀液中柠檬酸钠的含量为35g/L,镀层中铬质量分数为20%左右时,Ni-Cr合金镀层的耐腐蚀性能最好。

电镀工艺条件对铁-镍-铬合金镀层成分和硬度的影响

在由FeSO4·7H2O、NiSO4·6H2O、NiCl2·6H2O、CrCl3·6H2O组成的镀液中,采用直流电沉积方法制备Fe-Ni-Cr合金镀层。研究了pH、电流密度、温度和镀液主盐的浓度对镀层成分和硬度的影响,并对镀层的表面形貌和晶体结构进行了分析。实验结果表明:镀层的硬度随着镀层中铁和铬的含量的增加而增大;控制pH为2.0,阴极电流密度为14A/dm2,温度为30℃,镀液主盐的浓度适量,可以得到Cr含量接近6%、Fe含量为54%、硬度高达70(HR30T)光亮镀层。

电镀镍-铬合金添加剂的研究

镍铬合金电镀层由于具有优良的耐蚀性能而受到人们的关注，而添加剂的选取和用量的多少对能否获得优良性能的镀层起着关键作用。确定了适合氯化物硫酸盐混合体系电镀镍铬合金的添加剂WHT、光亮剂791以及表面活性剂十二烷基硫酸钠，通过试验分别讨论了它们的用量对镀层表面质量的影响，并采用稳态极化曲线和循环伏安法分别研究了它们的用量对镍铬合金共沉积的阴极电化学行为的影响。试验结果表明：添加剂WHT对镀层晶粒细化起主要作用，它的加入增大了合金共沉积的阴极极化程度；当镀液中添加剂WHT用量为4g／L，光亮剂791用量为7．5—15．0mL／L，十二烷基硫酸钠用量为0．15—0．20g／L时，所得合金镀层平滑、光亮、致密，且与基体结合力好。

AC-HVAF喷涂高铬镍基合金纳米结构涂层的热腐蚀性能研究

使用AC-HVAF喷涂工艺分别制备了纳米和微米结构的高铬镍基合金涂层,对两种涂层和20G钢在550℃和650℃表面涂盐情况下的热腐蚀性能进行了研究,并利用配有能谱分析仪的扫描电镜(SEM)和X-ray衍射仪(XRD)对涂层腐蚀产物的形貌、成分和相组成进行了分析。试验结果表明,腐蚀后的两种涂层表面均生成一层连续致密的氧化铬保护膜,可有效抑制腐蚀反应的进程。在相同腐蚀条件下,纳米结构涂层比微米结构涂层具有更低的腐蚀增重,显示出更优异的抗热腐蚀性能。

惰气熔融-红外吸收法测定铬铝、钼铝中间合金粉中氧

铬铝(铝铬)、钼铝(铝钼)中间合金是重要的钛合金用新型合金剂,准确测定其中的氧含量有利于从源头上指导钛合金的质量控制。称取(100±50)mg样品采用锡囊包裹,设定分析功率为5.0~5.5kW,采用钢铁标准样品校准仪器(分析功率4.0kW),使用石墨套坩埚进行测定,建立了脉冲加热-惰气熔融-红外吸收法测定铬铝、钼铝中间合金粉中氧含量的方法。对样品量、分析功率进行了优化,并重点探讨了锡囊、镍箔、镍篮为助熔剂对氧量测定的影响。结果表明,助熔剂对氧含量的释放有较大的影响;部分程度上,镍箔、镍篮或会抑制或阻碍氧化铝中氧的释放,造成铬铝、钼铝中间合金中氧的释放率和测定结果存在显著偏低及不稳定的质量风险。在选定的实验条件下,方法检出限、定量限分别为0.004%、0.012%,定量范围为0.012%~0.58%。按实验方法分析铬铝、钼铝合金粉状样品,结果的相对标准偏差(RSD,n=6)不大于6%,极差显著小于参考YS/T 1075.7—2015《钒铝、钼铝中间合金化学分析方法第7部分:氧量的测定惰气熔融-红外法》计算的临界差(1.4倍重复性限)。采用加入氧化铝粉的方法合成加标样品,氧化铝中氧的回收率为90%~109%。方法可适用于铬铝、钼铝中间合金粉中氧含量的测定,并有望在以铬、钼为合金元素的钛合金用新型铝基中间合金(如铝钼铬、钼钒铝、钒铝锡铬)中得到推广和应用。

pH值与F^-对纯钛及含钛镍铬合金在人工唾液中电化学腐蚀的影响

目的:研究不同pH值与F-对纯钛及含钛镍铬合金在人工唾液中电化学腐蚀的影响。方法:使用电化学工作站测量纯钛及含钛镍铬合金在不同人工唾液中的极化曲线,测得纯钛及含钛镍铬合金的自腐蚀电位(Ecorr)、自腐蚀电流密度(Icorr)和极化电阻(Rp),以评价pH值与F-对纯钛及含钛镍铬合金电化学腐蚀的影响。应用场发射扫描电子显微镜(FSEM)观察试件腐蚀前后形貌变化。结果:随着pH值的降低,纯钛及含钛镍铬合金的自腐蚀电位和自腐蚀电流密度增大,极化电阻减小,两者有显著性差异(P<0.05)。在pH=4人工唾液中加入0.2%NaF后,纯钛自腐蚀电位和自腐蚀电流密度明显增大,极化电阻明显减小,两者有显著性差异(P<0.01)。场发射扫描电子显微镜显示,纯钛及含钛镍铬合金表面发生腐蚀,纯钛在含0.2%NaF人工唾液中的腐蚀最为严重。结论:纯钛及含钛镍铬合金的耐腐蚀性随pH值降低有所下降,F-降低纯钛的耐腐蚀性能。

NiCr合金在KCl-ZnCl_2盐膜下含氯氧化性气氛中的腐蚀

研究了纯Ni、纯Cr以及3种不同Cr含量的NiCr合金在600℃KCl-ZnCl2盐膜下含氯氧化性气氛中的腐蚀行为.结果表明,5种材料均发生了严重的加速腐蚀.在材料表面形成了多孔的氧化膜,并发生了开裂,在氧化膜与基体金属的界面处有金属氯化物生成.NiCr合金的腐蚀增质比纯Ni和纯Cr的小.Ni50Cr和纯Cr有较高的腐蚀速度,前者与其具有的双相组织有关,后者是其氧化膜易脱落所致.材料的加速腐蚀机制是氯化物蒸汽的气相输运加速了金属离子向外扩散速度的‘活化氧化’.

Ni-Fe-Cr合金在铁基体上的电沉积

以柠檬酸为配合剂,在氯化物–硫酸盐体系中,通过电沉积的方法在铁基体上获得了含42.2%～63.4%Ni、30%～57.3%Fe和0.5%～6.6%Cr的Ni–Fe–Cr合金镀层。采用能量色散X射线谱分析了合金镀层的成分,研究了电流密度、温度、pH对合金镀层成分的影响。确定了最佳工艺条件为:电流密度12～18A/dm2,pH1.6～2.7,温度20～30°C。X射线衍射分析表明,Ni–Fe–Cr合金镀层为面心立方晶体结构。扫描电镜观察表明,镀层表面由密集的球形小颗粒组成。镀层光亮,与基体结合良好,在w=5%的NaCl溶液中具有良好的耐蚀性。