Adsorption of copper(Ⅱ) and chromium(Ⅵ) on diaspore

The adsorption of Cu(Ⅱ)and Cr(Ⅵ)on diaspore was studied with the help of X-ray diffraction analysis,BET measurement,zeta potential measurement and atomic adsorption spectrometry.The adsorption equilibrium almost reaches within 60 min.The adsorption isotherms of Cu(Ⅱ)and Cr(Ⅵ)could be well described by the Langmuir equation.The adsorption capacities of Cu(Ⅱ)and Cr(Ⅵ)are 1.944 and 1.292 mg/g,respectively.The adsorption percentage of Cr(Ⅱ)increases with the increment of solution pH,but the adsorption percentage of Cr(Ⅵ)decreases.This could be explained by zeta potential theoretical and electrostatic attraction between metal ions and diaspore surface.

Influences of copper on solidification structure and hardening behavior of high chromium cast irons

The influences of copper on microstructure and the hardening behavior of high chromium cast irons subjected to sub-critical treatment were investigated. The results show that the microstructure of the as-cast high chromium cast irons consists of retained austenite, martensite and M7C3 type eutectic carbide. When copper is added into high chromium cast irons, austenite and carbide contents are increased. The increased addition of copper content from 0% to 1.84% leads to the increase of austenite and carbide from 15.9% and 20.0% to 61.0% and 35.5%, respectively. In the process of sub-critical treatment, the retained austenite in the matrix can be precipitated into secondary carbides and then transforms into martensite in cooling process, which causes the secondary hardening of the alloy under sub-critical treatment. High chromium cast irons containing copper in sub-critical treatment appear the second hardening curve peak due to the precipitation of copper from supersaturated matrix.

环境艺术设计用铜合金的表面改性处理研究

为了提升环境艺术用铜合金的耐腐蚀性能,提升艺术观赏性,对环境艺术设计用铜合金进行了表面改性处理,对比分析了打磨态、酸洗态、无铬钝化态和铬酸盐钝化态铜合金的表面物相组成、表面形貌,以及盐雾腐蚀、失重腐蚀和电化学腐蚀性能。结果表明,无铬钝化和铬酸盐钝化处理后的铜合金表面都形成了钝化膜,且铬酸盐钝化处理后铜合金表面形成了致密钝化膜;盐雾腐蚀后,无铬钝化态和铬酸盐钝化态铜合金的表面腐蚀程度会相对打磨态和酸洗态腐蚀较轻;在相同腐蚀时间下,腐蚀失重从小到大顺序为:铬酸盐钝化态<无铬钝化态<酸洗态<打磨态;无铬钝化态和铬酸盐钝化态铜合金的腐蚀电位相对打磨态、酸洗态更正,腐蚀电流密度相对小一个数量级,打磨态、酸洗态、无铬钝化态和铬酸盐钝化态的缓蚀率分别为32.32%、51.66%、89.34%和96.84%,铜合金的耐腐蚀性能从大到小顺序为:铬酸盐钝化态>无铬钝化态>酸洗态>打磨态。

高温碱熔-电感耦合等离子体原子发射光谱法测定铜精矿中铬的含量

为解决酸溶法难以溶解铜精矿的弊端,提出了高温碱熔-电感耦合等离子体原子发射光谱法测定铜精矿中铬含量的方法。称取0.3000 g样品于铁坩埚中,覆盖3.0 g氢氧化钾在样品表面,于300℃加热至氢氧化钾呈流体状后,将铁坩埚放入(700±10)℃的马弗炉中熔融15 min,再加入20 mL盐酸,于300℃加热酸化5 min,冷却至室温,用水定容至200 mL。分取5 mL,加入5 mL盐酸,再用水定容至50 mL,摇匀,按照电感耦合等离子体原子发射光谱仪工作条件进行测定。结果表明:铬的质量浓度在2.00 mg·L^(-1)内与其对应的发射强度呈线性关系,检出限(3 s)为0.92 mg·kg^(-1);方法用于4种铜精矿样品分析,测定值的相对标准偏差(n=12)为3.4%~7.0%,并且测定值与其他CNAS认可实验室的基本一致。

铜铬合金熔覆层的制备及其特性研究

本研究探索在铜基体上利用激光熔覆技术制备防护层的可行性。利用高功率光纤激光器在纯铜表面制备Cr含量分别为20%和40%的CuCr(20)、CuCr(40)铜基合金熔覆层,并分析了熔覆层的物相、显微结构和元素分布,测量了其截面显微硬度和电导率的变化,测试了两种熔覆层的耐磨性并与纯铜的耐磨性进行了比较。实验结果表明,熔覆层组织分布均匀,晶粒细小,未发生元素的比重偏析;熔覆层硬度大幅提升,CuCr(20)熔覆层平均硬度为155.8 HV,可达到基体的2.2倍,CuCr(40)熔覆层硬度平均值为254.4 HV,可达到基体的3.6倍,熔覆层电导率较纯铜发生下降,但耐磨性显著提升,CuCr(40)熔覆层的耐磨性高于CuCr(20)熔覆层,可达到纯铜的3倍。实验证明,在纯铜表面制备激光熔覆层可达到防护效果。

电感耦合等离子体发射光谱法测定钼铬合金中9种元素

介绍了用硝酸钾、氢氧化钠熔融钼铬合金样品,硫酸酸化,在钼铬基体中加入待测元素的标准溶液绘制工作曲线,将试液雾化后导入ICP,同时测定铝、钴、铜、铁、锰、镍、硅、钛、钨元素发射光强度,计算各元素的百分含量。

Properties of CuCr contact materials with low chromium content and fine particles

The voltage withstanding capability and electric conductivity of CuCr contact materials with low chromium content and fine Cr particles were studied. The results show that the withstanding voltage has little relation with the Cr content for the melted casting CuCr alloy within 15%29% Cr content, and that the electric conductivity of the alloy increases with the decreasing of Cr content.

A Cu-Cr alloy with nano and microscale Cr particles produced in a water-cooled copper mold

Microstructures have profound effects on the hardness and strength of Cu-Cr alloys. The microstructures of a Cu-Cr alloy cast in a water-cooled copper mold were studied in the present work. The scanning electron microscopy （SEM） results show that there are the copper matrix saturated with chromium, spherical precipitates of chromium separated from liquid phase during cooling before the initiation of so- lidification, and a eutectic phase in grain boundary areas. To investigate the effect of age-hardening treatment on the microstructures and properties of the material, some samples were subsequently age-hardened in a salt bath and investigated by transmission electron microscopy （TEM）. The results show that coherent precipitates with the diameter of 11 nm are detectable in the samples before and after the age-hardening stage. Of course, the volume fraction of coherent precipitates is higher after the aging process.

Heavy Metal Accumulation in Maize (<i>Zea mays</i>L.) Grown on Chromated Copper Arsenate (CCA) Contaminated Soil Amended with Treated Composted Sewage Biosolid

A pot experiment was conducted to investigate the heavy metal accumulation in maize (Zea mays L.) plant grown in chromated copper arsenate (CCA) soil amended with treated composted sewage biosolid. The initial concentrations of chromium, copper, arsenate in the CCA soil and sewage biosolid were determined by atomic absorption spectrophotometer. These were found to be, in CCA soil: 365.8 ± 6.18, 109.22 ± 14.04, 28.22 ± 3.8 and in sewage biosolid: 35 ± 1.06, 1.0 ± 0.02, 0 mg·kg-1 respectively. The concentration of Cr, Cu and As determined in both the roots and shoots generally decreased with increase in percentage amendment concentration and number of days (20 and 40 days after planting). At 20 days, the total metal concentration ranges in roots were As (5.54 ± 0.03 - 6.69 ± 1.14), Cr (9.59 ± 0.02 - 13.22 ± 0.03), Cu (2.28 ± 0.06 - 4.53 ± 0.37) mg·kg-1 while at 40 days the values were As (5.60 ± 0.19 - 6.08 ± 0.01), Cr (9.47 ± 0.04 - 10.95 ± 0.09), Cu (3.94 ± 0.19 - 4.64 ± 0.07) mg·kg-1. For the shoot system, the concentrations of the metals at 20 days were As (5.28 ± 0.03 - 5.90 ± 0.13), Cr (9.30 ± 0.05 - 10.07 ± 0.06), Cu (3.64 ± 0.12 - 4.72 ± 0.15) mg/kg while at 40 days the values obtained were As (5.28 ± 0.03 - 5.9 ± 0.13), Cr (9.69 ± 0.14 - 10.07 ± 0.03), Cu (2.94 ± 0.72 - 4.53 ± 0.03) mg·kg-1. The roots accumulated the three heavy metals more than the shoot system at all treatments used. Concentration of arsenic, chromium and copper in the plants decreased with increasing percentage amendments. The results suggest relatively low bioavailability of the three metals in CCA soil treated with high percentages of sewage biosolid as an amendment.

粉末床熔融成形铜及铜铬系合金研究进展

近年来,越来越多的研究报道了粉末床熔融成形技术。这一技术通过热源扫描熔化粉末,逐层堆积直接成形复杂三维金属零件结构,能够极大地缩短产品生产周期,提高生产效率,特别是在选区激光熔化(SLM)以及选区电子束熔化(SEBM)制备铜及铜铬系合金方面取得了很大的突破。本文综述了粉末床熔融成形技术的基本原理和优势,以及在增材制造(AM)技术中,铜系材料打印存在的主要困难。介绍了不同制备方法对材料性能的影响,重点对比了SLM工艺在铜系金属上的高反射率问题,进而阐明提高铜对激光的吸收率是该成形技术的研究重点,以及SEBM工艺在铜系金属中存在的表面粗糙度问题的重要性。探讨了更为前沿的一种电子束-激光符合选区融化(EB-LHM)技术,虽然其工艺更复杂但能结合不同打印方法提升性能。探讨了不同成形工艺对材料微观结构和力学性能的影响,并对材料的打印方式进行了评价。最后对目前该领域存在的问题和未来的研究方向进行了展望。

医用Co-Cr合金表面化学镀铜抗菌涂层的制备及性能

钴铬合金具有良好的耐磨性、耐菌性及生物性能,是理想的医用金属材料,但钴铬合金对细菌的粘附往往比较敏感,容易引发口腔细菌感染,因而采用化学镀方法在钴铬合金上镀铜,对镀铜工艺参数进行单因素变量研究,得出化学镀铜最佳实验方案为:硫酸铜质量浓度为16 g/L,酒石酸钾钠质量浓度为46 g/L,NaOH质量浓度为15 g/L,甲醛为15 g/L,pH为12.9。通过采用XRD分析和SEM表征结果表明,化学镀铜后表面化学成分大部分为Cu,且分布密集,厚度约为6~7μm。涂层和基体结合稳定,不易脱落,镀铜后的钴铬合金抗菌性能明显得到提高。

化学气相沉积法及机械混合法添加石墨烯对铜铬触头性能的影响

随着电力系统发展,其主要电气控制设备断路器的功率不断提升。作为断路器的核心部件,电触头材料的研究得到了越来越广泛的关注。本文以铜粉、铬粉和石墨烯为原料,分别通过机械混合法和化学气相沉积法添加石墨烯,再通过压制-烧结-复压-复烧工艺制成石墨烯增强铜铬复合材料。研究了不同工艺添加石墨烯对铜铬复合材料组织及性能的影响。研究发现,通过化学气相沉积法添加的石墨烯在基体中分布均匀,电导率提升至40.64 MS/s、平均燃弧时间为5.37 ms、熔焊力变化范围为13.550~13.636 N,电导率、抗熔焊性能和耐烧蚀性能等得到了明显的提高,有利于其进一步扩大在电接触材料领域的应用范围。

碘量法测定高铬铜精矿中铜含量

通过在高氯酸冒浓烟时多次加盐酸或氯化钠使铬元素生成CrCl_(3)将其除去,消除铬对铜精矿中铜含量测定的影响,适用于短碘量法测定高铬铜精矿中铜含量,该方法测定结果稳定性和准确性好,测定范围为5%~50%。

时效处理工艺对铬锆铜合金性能的影响

铬锆铜合金具有良好的导电导热性,且硬度较高,广泛用作电阻焊电极材料。文章通过进行不同的温度、时间和出炉温度等时效处理工艺参数实验,检测铬锆铜合金的硬度和导电率,观察显微组织,研究时效处理工艺对铬锆铜合金性能的影响。结果表明:采用430℃温度、时间1~2 h时效处理工艺,铬锆铜合金的综合性能良好。

合金元素对铬锆铜综合性能的影响研究

阐述了常见添加微合金元素对铬锆铜体系性能的改善作用,找出较优的微合金体系方向以得到最佳综合性能,并通过对比分析,提出了当前研究存在的问题,对未来铬锆铜材料工艺方向的发展进行了思考。

ICP-MS法测定砂糖橘皮中水溶态铬镍铜锌镉铅问题探讨

铬、镍、铜、锌、镉、铅(Cr、Ni、Cu、Zn、Cd、Pb)是生物样品检测中常测的金属元素,目前对这6种元素的检测通常是对各元素的总量进行样品的制备和测定,对金属元素的形态分析方法较少。实验采用纯水浸提砂糖橘皮样品,电感耦合等离子体质谱法(ICP-Ms)测定砂糖橘皮中水溶态铬镍铜锌镉铅的含量。文中分别对样品提取温度,仪器在线内标回收率等问题进行了分析探讨,并且将测定结果与样品中各元素的微波消解总量做了对比分析。

采用电感耦合等离子体发射光谱仪对土壤重金属铬、铜、铅形态分析

土壤重金属普查工作具有复杂性强、难度大等特征,现有土壤重金属电感耦合等离子体质谱法(ICP-MS)在实践中存在样品分解不适宜等问题,难以满足实际工作需求。本文结合电感耦合等离子体发射光谱仪(ICP-AES),采用电热板加热技术处理样品,然后对土壤中重金属元素铬、铜、铅的形态进行综合分析。其结果表明,检出精密度、检出准确度均具有较为良好的表现,能够适用于大批量土壤中重金属形态与含量的测试。

苯并三氮唑在锂电铜箔抗氧化方面的研究

为研究苯并三氮唑(BTA)在锂电铜箔抗氧化方面的应用,运用高温烘箱、扫描电子显微镜(SEM)、电化学工作站等手段对BTA进行了研究。研究表明,铜箔在实验浓度范围内(BTA质量浓度0.1~2.0 mg/L),经BTA、BTA+植酸(PA)、BTA+硅烷偶联剂(KH792)三种钝化液处理后,放置150℃高温烘箱保温10 min,均发生了不同程度的氧化变色,表面轻微泛黄。经BTA+草酸(OA)配置成的钝化液处理后,同样放置150℃高温烘箱保温10 min,铜箔变色不明显,并且其微观形貌均未见明显变化,BTA和OA配合使用形成的钝化膜膜电阻和反应电阻相对更高。

稀有鮈鲫──一种新的鱼类毒性试验材料

本文研究了稀有鲫（Ｇｏｂｉｏｃｙｐｒｉｓｒａｒｕｓ）作为毒性试验材料的可行性。采用换水式试验，在硬度为２００ｍｇ／Ｌ（以ＣａＣＯ３计）、ｐＨ７．８±０．２、温度２４－２５℃条件下研究了铬、铜、锌和五氯酚（ＰＣＰ）对稀有鲫的急性毒性。重铬酸钾对２日龄稀有鲫的２４ｈ和９６ｈ和ＬＣ５０控制范围分别２６３．６－３３４．７和１１５３－１７８．５ｍｇ／Ｌ（ｎ＝８）。铬、铜、锌和五氯酚对２日龄稀有鲫的急性毒性值（９６ｈＬＣ５０）范围，从铜的５２．２μｇ／Ｌ到铬的５２０００μｇ／Ｌ，毒性大小的顺序是铜＞五氯酚＞锌＞铬。研究结果表明，稀有鲫有可能发展成为一种较为理想的毒性试验材料。

氧化铝对水体中重金属离子吸附去除研究

以木材防腐剂CCA中的重金属铬、砷和铜为研究对象,评价了氧化铝对3种重金属的同时吸附去除效果,并对3种重金属在氧化铝上相互作用机理进行了探讨。结果表明,铬对氧化铝去除砷和铜均无显著影响;砷显著抑制氧化铝对铬的去除,但促进铜的去除;铜促进氧化铝对铬和砷的去除;铬主要通过外层作用(静电吸附,离子交换等方式)吸附在氧化铝的表面上;而砷主要通过内层吸附(专性吸附)在氧化铝的表面上,因而引起氧化铝的等电点朝较低的pH移动;铜主要通过专性吸附和沉淀作用得以去除。总体上,在中性环境下,氧化铝对3种重金属可同时具有较好的去除效果。