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Method for preparing rare earth magnetic refrigeration material by liquid-phase laser ablation method

A technology of liquid-phase laser ablation and rare earth magnetism, which is applied in the manufacture of inductors/transformers/magnets, electrical components, circuits, etc., can solve the problems of high price, complicated preparation process, and difficult control of components, and achieve easier control of the environment and process The effect of simple process and concise preparation method

Inactive Publication Date: 2021-03-30
杨方宗
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Problems solved by technology

Currently discovered magnetic refrigeration materials, such as Gd5 (SixGe1-x)4, La(FeSi)13, RMnO3, MnFeP1-xAsx, Ni-Mn-X, etc., have some application limitations
Gd (SixGen1-x) 4 series alloys must use high-purity Gd as raw material to maintain the giant magnetocaloric effect, which is expensive and requires a strong magnetic field to drive; It causes many problems such as unstable chemical properties; the Curie temperature of perovskite-type manganese oxide materials is low; the preparation process of MnFeP1-xAsx compounds is complicated, and it contains highly toxic As elements. If it is replaced by non-toxic elements, the thermal hysteresis will increase , the efficiency is reduced; Ni-Mn-X alloy is difficult to control the composition due to the volatilization of Mn element, and it needs a long time high temperature heat treatment to obtain a single-phase structure

Method used

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Examples

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Embodiment 1

[0023] Embodiment 1: adopt a kind of liquid phase laser ablation method to prepare nanoscale (Pr0.7Nd0.3)0.5(Sr0.9Ca0.1)0.5MnO3 method, concrete steps of the present invention are as follows:

[0024] (1) Dosing stage: according to the atomic ratio: Pr:Nd:Sr:Ca:Mn=0.35:0.15:0.45:0.0.05:1 Weigh the raw material powder Pr6O11, Nd2O3, SrCO3, CaCO3 and Mn2CO3 of the rare earth magnetic refrigeration material through After fully grinding and mixing, the raw material powder is pressed into a block with a diameter of 12mm and a thickness of 5mm under a pressure of 15Mpa;

[0025] (2) Pre-burning stage: pre-burn the pressed block at 900 oC for 12 hours to form a precursor;

[0026] (3) Ablation stage: Use an ultrasonic cleaner to clean the precursor for 30 minutes. After drying, put it on the target holder of the beaker, fill it with isopropanone to cover the precursor by 10mm, and place the beaker at a rotation speed of 30 r / min. On the rotating platform, the third harmonic of Nd:YA...

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Abstract

The invention discloses a method for preparing a rare earth magnetic refrigeration material by a liquid phase laser ablation method. The chemical composition formula of the rare earth magnetic refrigeration material is LnxA1-xMnO3, the element Ln in the compound is rare earth elements such as La, Pr and Sm, the element A is monovalent or divalent metal elements such as Ca, Na, K and Sr, and x is larger than or equal to 0.1 and smaller than or equal to 0.9. Raw material powder of the rare earth magnetic refrigeration material is weighed according to a certain stoichiometric ratio, after sufficient grinding and mixing, the raw material powder is pressed into blocks, the pressed blocks are presintered under a certain temperature condition to form a precursor, the nanoscale high-performance rare earth magnetic refrigeration material is prepared through a laser ablation technology, and finally, sintering under a high magnetic field to obtain the rare earth magnetic refrigeration material. According to the preparation method, the rare earth magnetic refrigeration material with clean surface, high chemical activity and nanoscale size can be obtained, the refrigeration temperature intervalis remarkably increased, the refrigeration capacity is enhanced, the high-temperature sintering temperature can be effectively reduced, the high-temperature sintering time can be effectively shortened, and the preparation process is simple.

Description

technical field [0001] The invention relates to a method for preparing a rare-earth magnetic refrigeration material by a liquid-phase laser ablation method, belonging to the field of high-performance magnetic materials. Background technique [0002] As a new technology for preparing nanoparticles, liquid phase laser ablation technology has attracted much attention. Liquid phase laser ablation (Laser Ablation in Liquid, LAL) is a simple and green nanomaterial preparation technology, which usually only needs to be carried out in water or organic liquid phase conditions. In recent years, LAL has been used to prepare a series of nanomaterials with special morphology and microstructure, and to realize functionalized nanomaterials in the exploration of emerging properties and applications in the fields of optics, display, detection, and biology. one-step preparation. It has been demonstrated that laser ablation of various noble metals precipitated in solvents produces colloidal ...

Claims

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Application Information

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IPC IPC(8): H01F41/02
CPCH01F41/0253H01F41/0266H01F41/0293
Inventor 杨杭福方杰扬吴琼葛洪良
Owner 杨方宗
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