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Q235钢表面Ni-Cr电镀层的组织及性能
引用本文:李刚,李晓昆,蒋谭琳,宋艳东,唐光东. Q235钢表面Ni-Cr电镀层的组织及性能[J]. 材料保护, 2017, 50(9)
作者姓名:李刚  李晓昆  蒋谭琳  宋艳东  唐光东
作者单位:辽宁工程技术大学材料科学与工程学院,辽宁阜新,123000
摘    要:为提高Q235钢的表面防护性能,对其进行表面电镀Ni-Cr处理,并采用正交试验对电镀Ni-Cr工艺进行优化。采用X射线衍射仪(XRD)、扫描电镜(SEM)和激光共聚焦显微镜(OM)分别对镀层进行物相表征和形貌观察,利用显微硬度计、磨粒磨损机和电化学工作站对镀层硬度和耐蚀性进行研究。结果表明:以镀层沉积速率为指标,正交试验所得电镀Ni-Cr优化工艺为柠檬酸钠含量30 g/L,镀液pH值3.0,电流密度20 A/dm~2,电镀温度35℃,镀层沉积速率可达40.17μm/h;Ni-Cr镀层相结构由γ-Ni和Cr_(1.22)Ni_(2.88)组成;镀层表面平整,表面形貌为密集球形颗粒;与基体相比,正交试验所得Ni-Cr镀层硬度提高了81.62~649.08 HV_(2N),磨损率减少了9.14~29.99mg/cm~2,自腐蚀电位提高了2.05~121.28 mV。

关 键 词:Q235钢  Ni-Cr电镀层  组织  显微硬度  耐蚀性

Microstructure and Properties of Ni-Cr Electroplated Coating on the Surface of Q235 Steel
LI Gang,LI Xiao-kun,JIANG Tan-lin,SONG Yan-dong,TANG Guang-dong. Microstructure and Properties of Ni-Cr Electroplated Coating on the Surface of Q235 Steel[J]. Journal of Materials Protection, 2017, 50(9)
Authors:LI Gang  LI Xiao-kun  JIANG Tan-lin  SONG Yan-dong  TANG Guang-dong
Abstract:In order to improve the surface protection property of Q235 steel,Ni-Cr electroplated coating was prepared on it,and the process conditions were optimized through orthogonal experiments.Morphology and phase composition of the coating were analyzed by XRD,SEM and OM,and the hardness and corrosion resistance of the coating were analyzed by microhardness tester,abrasive wear machine and electrochemical workstation,respectively.Results showed that the optimized operating conditions through orthogonal test were obtained based on the deposition rate as the evaluation index:sodium citrate 3.0 g/L,pH=3.0,current density 20 A/dn2,temperature 35 ℃.The deposition rate of the coating reached 40.17 μm/h and the Ni-Cr electroplated coating was composed of γ-Ni and CrL22Ni2.8s.The surface of the Ni-Cr coatings was smooth,with the dense arrangement of spherical panicles.Besides,the microhardness of the Ni-Cr coating was increased by 81.62-649.08 HV2N,and the wear rate was decreased by 9.14-29.99 mg/cm2,as well as the free-corrosion potential was improved by 2.05-121.28 mV,compared with those of the substrate.
Keywords:Q235 steel  Ni-Cr electroplated coating  microstructure  microhardness  corrosion resistance
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