影响工业纯铜铸件变形行为和电导率的因素

IF 0.5 4区材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING

Journal of The Japan Institute of Metals Pub Date : 2017-01-01 DOI:10.2320/JINSTMET.J2016052

I. Goto, S. Aso, K. Ohguchi, Hayato Oguri, K. Kurosawa, Hiroyuki Y. Suzuki, H. Hayashi, J. Shionoya

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引用次数: 3

摘要

研究了影响工业生产纯铜铸件拉伸变形性能和电导率的因素。纯铜铸件具有良好的变形特性和导电性。然而，铸件的变形特性和电导率略低于室内试验制造的铸件。用工业工艺制造的铸件氧含量小于0。0.01质量%，导致Cu不存在︲Cu 2o共晶相，表现出脆性行为。另一方面，对断口表面和︲横截面的观察表明，铸件存在微孔隙和两种类型的夹杂物。这些可能是影响拉伸强度和均匀伸长率下降的因素。微孔隙是由于熔体中氢含量较高和/或凝固过程中冷却速度较慢造成的。EDX分析表明夹杂物为矿渣和秸秆灰的一种。此外，工业工艺铸造的铸件中磷和铁的含量高于实验室工艺铸造的铸件。这些可能是影响电导率下降的因素。以上研究结果表明了提高工业工艺铸件性能的几种方法。[doi:10]2320 / jinstmet。J2016052]

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Factors Influencing Deformation Behavior and Electrical Conductivity of Pure Copper Castings Fabricated by Industrial Process

The factors inﬂuencing the tensile deformation behavior and the electrical conductivity of pure copper castings fabricated by an industrial process were investigated. The pure copper castings had sufﬁcient deformation characteristics and electrical conductiv ity on the practical side. However, the deformation characteristics and the electrical conductivity of the castings were slightly inferior to those of the castings fabricated by laboratory experiments. The oxygen content in the castings fabricated by the industrial process was less than 0 . 01 mass ％ , which resulted in the absence of Cu ︲ Cu 2 O eutectic phase that exhibits the brittle behavior. On the other hand, observations of the fracture surface and the cross ︲ section of the castings showed the existences of microporosity and two types of inclusions. These may be the factors influencing the decrease in the both tensile strength and uniform elongation. The microporosity were suggested to be caused by higher hydrogen content in the melt and / or by slower cooling rate during solidiﬁca -tion. EDX analyses suggested that the inclusions are a kind of slag and straw ashes. Furthermore, phosphorus and iron content in the castings fabricated by the industrial process were higher than those in the castings fabricated by the laboratory experiments. These may be the factors inﬂuencing the decrease in electrical conductivity. The above ﬁndings indicated the several methods to improve the properties of the castings fabricated by the industrial process. ［ doi:10 . 2320 / jinstmet.J2016052 ］

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