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vehicles [J]. Journal of Power Sources, 2002, 17: 162-173. [8] THOMPSON D S, SCOTT D H. Aluminum battery alloys: US4554131 [P]. 1985. [9] TARCY G P, PITTSBURGH P. Aluminum alloy and anode and battery: US4950560 [P]. 1990. [10] MODEN J R, PERKONS G. Aluminum anode alloy for primary high power density alkaline fuel cells and batteries: US4150204 [P]. 1979. [11] HUNTER J A. Aluminium batteries......
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system at 303K were 3.38×10-10 m2*s-1 and 0.160 respectively. The homogeneous, strong adhesive Er-Ni alloy films with metallic lu- stre was prepared by potentiostatic electrolysis on Cu electrode...Electrodeposition of Er-Ni Alloy Film in Dimethylsulfoxide 刘冠昆1,童叶翔1,李高仁1 (1.School of Chemistry and Chemical Engineering, Zhongshan University, Guangzhou 510275, China) Abstract:The cyclic......
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compositions(all in mass fraction, %): Mn 1.19, Fe 0.56, Si 0.28, Cu 0.15 and balance Al. After homogenization at 610 ℃ for 36 h, aluminum alloy 3003 ingots were deformed by hot rolling to 3.5 and 1.7 mm... that second phase particles have a strong effect on the specific capacitance of the cathode foils of aluminum alloy 3003[5]. The solubility of Mn and Fe in aluminum matrix is very low at room temperature......
高强高导电铜合金耐蚀性研究 陆磊1,胡强1,邹晋1,张安南1,陈志宝1 (1.江西省科学院,应用物理研究所,南昌,330029) 摘要:采用乙酸盐雾试验和电化学方法对Cu-Ag和Cu-Fe-P两种高强高导电铜合金的腐蚀行为进行研究.通过SEM,EDS和XRD等方法分析合金的腐蚀形貌及腐蚀产物的组成.研究表明:Cu-Fe-P合金比Cu-Ag合金有更好的耐蚀性能.微量Fe和P的同时加入,可以综合利用Fe的细化晶粒和P的脱氧作用,细化和净化合金组织,在提高合金强度和电导率的同时改善合金的耐蚀性. 关键词:高强高导电; 铜合金; 耐蚀性; high-strength and high-conductivity; copper alloy; corrosion resistance; [全文内容正在添加中] ......
alloy [J]. Materials Chemistry and Physics, 2007, 101(2/3): 480-485. [7] HEMINGWAY R, LAKES P. Plant polyphenols [M]. New York: Plenum Press, 1992. [8] MANSFELD F, WANG Y, SHIH H. The Ce-Mo process... Organic-magnesium complex conversion coating on AZ91D magnesium alloy CHEN Xiao-ming(陈晓明)1, 2, LI Guang-yu(李光玉)1, 2, LIAN Jian-she(连建设)1, 2 1. Key Laboratory of Automobile Materials......