表面技术2026,Vol.55Issue(6):30-39,136,11.DOI:10.16490/j.cnki.issn.1001-3660.2026.06.003
Cu/Ni复合涂层霉菌腐蚀行为影响
Effects of Mold Corrosion Behaviors of the Cu/Ni Composite Coating
摘要
Abstract
The continuous proliferation of electromagnetic wave applications in intelligent communication systems and microelectronics has driven the development of electromagnetic interference(EMI)shielding materials toward lightweight architectures,broadband absorption and high-efficiency shielding performance.Carbon fiber reinforced polymer(CFRP),as a high-performance substrate,has garnered significant attention due to its exceptional electrical conductivity,mechanical strength and low density.However,its inherent diamagnetic properties substantially limit magnetic loss capabilities,and it is usually necessary to prepare metal coatings on the surface to improve their electromagnetic shielding effectiveness.The work aims to explore the corrosion behavior of single-layer Cu and multi-layer Cu/Ni coatings(Cu,Cu/Ni,Cu/Ni/Cu and Cu/Ni/Cu/Ni)by mold and to study the corrosion process of Cu/Ni composite coatings under the action of mold.Firstly,Cu/Ni composite coatings(Cu,Cu/Ni,Cu/Ni/Cu and Cu/Ni/Cu/Ni)were prepared on the carbon fiber composite(CFRP)substrate by electroless plating and electroplating.Then,the prepared mixed spore suspension of mold(Aspergillus niger,Aspergillus flavus,Aspergillus versicolor,Penicillium funiculosum and Chaetomium globosum)was uniformly sprayed on the surface of the sample for constant temperature and humidity experiments.Finally,the corrosion morphology and mold growth of the samples were observed by scanning electron microscope(SEM)after different experimental cycles,and the local element analysis was carried out by energy dispersive spectrometer(EDS).The surface chemical state of the samples was analyzed by X-ray photoelectron spectroscopy.After 28 days of the experiment,a large number of white colonies were observed on the surface of Cu and Cu/Ni/Cu coating samples.The number of molds was large and there were obvious cracks and pitting pits.The surface was covered by corrosion products and serious corrosion occurred.However,the number of molds on the surface of Cu/Ni and Cu/Ni/Cu/Ni coating samples was small,and no obvious corrosion occurred.The surface of the coating was intact,and only the surface of Cu/Ni coating had sporadic green corrosion products.Compared with Cu and Cu/Ni/Cu coatings,the samples of Ni coating on the surface did not suffer from large-area corrosion and the surface of the coating sample was relatively flat,without obvious cracks and holes.The corrosion results of the coating were related to the layered structure of the coating.The Cu and Cu/Ni/Cu coating samples were susceptible to mold corrosion,but as the corrosion reaction progressed,the copper ions continuously released by the Cu coating inhibited the activity of the mold and reduced the number of the mold.After the 28 d corrosion experiment,the corrosion degree of the two was close.The Cu/Ni and Cu/Ni/Cu/Ni coating samples effectively reduced the adhesion of the mold on the coating surface.At the same time,the passivation film formed during the corrosion process acted as a barrier to the corrosive medium and alleviated the corrosion rate of the mold to the coating.The Cu/Ni/Cu/Ni multi-layer structure could more effectively reduce defects such as pores,making its corrosion degree lower than that of the Cu/Ni coating.These findings provide critical insights for developing advanced protective coatings that combine the antimicrobial properties of copper with the passivation capabilities of nickel in optimized multi-layer architectures.关键词
Cu/Ni复合涂层/霉菌混合孢子/微生物腐蚀/腐蚀行为/腐蚀产物Key words
Cu/Ni composite coating/mold mixed spores/microbial corrosion/corrosion behavior/corrosion products分类
矿业与冶金引用本文复制引用
高子昂,凌远志,沈英明,鲍思洁,卢文壮..Cu/Ni复合涂层霉菌腐蚀行为影响[J].表面技术,2026,55(6):30-39,136,11.基金项目
中国航空科学基金(20220019052001) (20220019052001)
江苏省科研与实践创新计划(SJCX25_0154) (SJCX25_0154)
南京航空航天大学研究生科研与实践创新计划(xcxjh20240503) (xcxjh20240503)
南京航空航天大学分析测试中心大型仪器设备共享测试经费 Aviation Science Foundation of China(20220019052001) (20220019052001)
Postgraduate Research&Practice Innovation Program of Jiangsu Province(SJCX25_0154) (SJCX25_0154)
Postgraduate Research&Practice Innovation Program of NUAA(xcxjh20240503) (xcxjh20240503)
Large-scale instruments and equipment sharing test funds of analysis and test center of Nanjing University of Aeronautics and Astronautics ()
