A kind of preparation method of cu-fe composite material

Abstract

A method for preparing Cu‑Fe composite materials, belonging to the technical field of preparation of colored functional materials. The method is: 1) Preparation of rapidly solidified Cu‑Fe alloy; 2) Homogenization treatment under the action of magnetic field to obtain supersaturated Cu‑Fe alloy; 3) Formation and coarsening of Fe precipitation phase under the action of magnetic field to obtain coarsened Cu‑Fe alloy; 4) martensite transformation under the action of magnetic field and low temperature, to obtain a martensite-transformed Cu‑Fe alloy; 5) complete martensite transformation at room temperature, to obtain a fully martensite-transformed Cu‑Fe alloy; 6) Cu‑Fe composite material is obtained through the adsorption and growth of Fe under the action of magnetic field. The method of the present invention increases the enrichment of Fe at the grain boundaries and promotes the precipitation of Fe at the grain boundaries; accelerates the precipitation and coarsening of γ-Fe; promotes the martensite transformation rate and ratio; the prepared Cu-Fe alloy The conductivity at the same area reduction rate is 10 to 50% higher than that of the existing technology.

Description

technical field [0001] The invention belongs to the technical field of preparation of colored functional materials, and in particular relates to a preparation method of a Cu-Fe composite material. Background technique [0002] Copper alloy has good electrical and thermal conductivity, ductility and mechanical properties, and is a key functional material for the development of important industries such as electronic information, electric power, energy, shipbuilding, aerospace and machinery. The Cu-Fe alloy composed of Fe addition has electromagnetic properties (electromagnetic compatibility, hard magnetism and superparamagnetism, etc.) It has potential application prospects in systems such as electromagnetic shielding and electromagnetic shielding. However, the electrical conductivity of iron bronze (≤2.5wt% Fe) currently in commercial use is only 40% to 65% IACS (IACS means the International Annealed Copper Standard, 100% IACS = 1.7241μΩ·cm), which restricts its application...

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Problems solved by technology

The Chinese invention patent No. 2010105390636 uses steady magnetic field and gradient magnetic field annealing treatment to reduce the solid solubility of Fe in Cu at high temperature, effectively promote the precipitation of Fe from Cu at low temperature, reduce impurity scattering, and increase Cu- The purpose of the conductivity of the Fe composite material, but at this time the precipitation method of Fe mainly depends on the formation of spherical particles in the Cu matrix crystal; the Chinese invention patent No. 2011102882012 discloses a method of preparing rapid solidification Cu- The method of Fe alloy, combined with aging treatment, dispersed and precipitated Fe from the supersaturated solid solution, but did not use the magnetic transformation effect to further strengthen the precipitation of Fe, and still encountered the problem of low diffusion coefficient and difficult precipitation at low temperature; the application number is The Chinese invention patent of 2015105943730 proposed a method to improve the performance of Cu-Fe-C multi-phase copper alloy by using low-temperature deformation, low-temperature heat treatment combined with deformation-induced martensitic transformation, but because the addition of C may affect the electron scattering in the matrix, at the same time There is also no use of magnetic transformation to enhance martensitic transformation

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