A method for preparing porous metal iron

A technology of porous metal and ferric nitrate, applied in the field of preparation of transition metal porous materials, can solve the problems of limited scale production, high brittleness of porous materials, difficult industrial production, etc., and achieves the effects of low cost, reduced reduction reaction temperature, and uniform distribution.

Active Publication Date: 2017-01-18
UNIV OF SCI & TECH BEIJING
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Molten metal foaming method and infiltration casting method need to heat metal iron to near or above the melting point, resulting in high cost, which greatly limits its industrial scale production
The powder metallurgy method mainly prepares porous metals by compressing and sintering metal powders of different particle sizes, and relies on the pores between the particles to form pores. The porous materials prepared by this method are generally brittle, which also limits its industrial application. application
The metal electrodeposition method has been industrialized in the preparation of porous nickel, and can also be used to prepare porous iron and other porous metals. However, the electrodeposition of metals on foam templates requires that the plating species have good throwing ability and deep plating ability. Especially in the preparation of microporous metals, so this also brings difficulties to industrial production
Although the sputtering method can prepare porous metals with good pore structure, the conditions are harsh, the equipment is complicated, and the cost is high.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0021] Weigh 0.025 moles of ferric nitrate and 0.0125 moles of glycine, dissolve the raw materials in deionized water, and prepare a solution; place the solution on a temperature-controllable electric furnace for heating, and the solution undergoes a series of reactions such as volatilization, concentration, and decomposition to obtain Porous precursor: put the porous precursor into a tube furnace, pass through hydrogen, and reduce at 700° C. for 2 hours to obtain porous metallic iron with a porosity of 68%.

Embodiment 2

[0023] Weigh 0.025 moles of ferric nitrate and 0.015 moles of alanine, dissolve the raw materials in deionized water, and prepare a solution; place the solution on a temperature-controllable electric furnace for heating, and after the solution undergoes a series of reactions such as volatilization, concentration, and decomposition, A porous precursor was obtained; the porous precursor was placed in a tube furnace, fed with hydrogen, and reduced at 750° C. for 2 hours to obtain porous metal iron with a porosity of 62%.

Embodiment 3

[0025] Weigh 0.025 moles of ferric nitrate and 0.025 moles of urea, dissolve the raw materials in deionized water, and prepare a solution; place the solution on a temperature-controllable electric furnace for heating, and the solution undergoes a series of reactions such as volatilization, concentration, and decomposition to obtain Porous precursor: put the porous precursor into a tube furnace, pass through hydrogen, and reduce at 800° C. for 2 hours to obtain porous metallic iron with a porosity of 65%.

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Abstract

The invention relates to a method for preparing porous metallic iron and belongs to the technical field of preparation of transition metal porous materials. The method is characterized by comprising the following steps of preparing ferric nitrate and a reductant into a solution; acquiring a fluffy porous precursor by virtue of carrying out oxidation-reduction reaction in a liquid phase to release a lot of gas; reducing the porous precursor skeleton to metal iron by virtue of reduction reaction at a certain temperature and time under a reducing atmosphere, consolidating the skeleton by high temperature sintering so that the pore structures of the porous precursor are retained in situ and finally preparing porous metallic iron which has the advantages of good pore structure, adjustable size and uniform distribution. The method is simple in device, short in process flow, high in efficiency and low in cost and is suitable for large-scale industrial production.

Description

technical field [0001] The invention belongs to the technical field of preparation of transition metal porous materials, and in particular relates to a preparation method of porous metal iron. The method has easy-to-obtain raw materials, simple equipment, short process flow, high efficiency and low cost, and is suitable for industrial production. [0002] technical background [0003] Porous metal is a new type of functional material with low density and small specific gravity, which is composed of a large number of metal skeletons of a certain scale inside and a large number of pores dispersed in it. Due to the large number of pore structures and large specific surface area inside, it shows many characteristics different from dense metal materials in terms of electricity, magnetism, optics, acoustics, and thermodynamics. At the same time, the network skeleton structure of porous metal makes it have basic metal properties and strength. It can be seen that porous metal has bot...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22C33/00
Inventor 秦明礼黄敏曲选辉曹知勤刘烨贾宝瑞陈鹏起吴昊阳李睿鲁慧峰
Owner UNIV OF SCI & TECH BEIJING
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