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Electronic functional ceramic, manufacturing method and application thereof

A technology of functional ceramics and manufacturing methods, applied in the fields of resistance manufacturing, chemical instruments and methods, circuits, etc., can solve the problems of high prices of inorganic compounds and organic polymer materials, poor performance uniformity of ceramic products, and difficulty in precise control of formula ratios, etc. Achieve remarkable multi-functional electronic properties, DC voltage-sensitive properties, microwave dielectric properties, and low production costs

Active Publication Date: 2021-10-22
XI AN JIAOTONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although this method can realize inorganic-organic compounding, there are many types of components, and it is difficult to precisely control the formula ratio in industrial production, resulting in poor performance uniformity and low yield of final ceramic products.
Secondly, some of the inorganic compounds and organic polymer materials used are expensive, which is not conducive to cost control in the industry

Method used

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  • Electronic functional ceramic, manufacturing method and application thereof
  • Electronic functional ceramic, manufacturing method and application thereof
  • Electronic functional ceramic, manufacturing method and application thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] MC 2 o 4 ·H 2 O (where M is Li, K, Na, Ca, Co, Fe(II), Sn); C 5 h 8 NNaO 4 ·H 2 O; C 5 h 8 KNO 4 ·H 2 O; C 10 h 16 o 8 N 2 Ca·H 2 O, C 5 h 7 MgNO 4 ·H 2 O; C 6 h 5 m 3 o 7 ·H 2 O (where M is Li, K, Na), Zn 3 (C 6 h 5 o 7 ) 2 ·H 2 O, C 12 h 10 Ca 3 o 14 ·H 2 O; CHO 2 M·H 2 O (where M is Li, K, Na), C 2 h 2 o 4 Ca·H 2 O, C 2 h 6 MgO 6 ·H 2 O; C 2 h 3 MO 2 ·H 2 O (where M is Li, K, Na); C 6 h 11 LiO 7 ·H 2 O (where M is Li, K, Na, respectively).

[0037] Step 1: The original splits are subjected to acetone wet ball milling;

[0038] Step 2: After wet ball milling for 8 hours, place the original powder in an oven at 50°C for 18 hours;

[0039] Step 3: Take the dried sample in Step 2 for grinding pretreatment;

[0040] No liquid phase auxiliary pretreatment. Take the various powders dried in step 2 and grind them separately for 10 minutes until the powder particles are flour-like to ensure uniform particle size and facil...

Embodiment 2

[0044] MC 2 o 4 4H 2 O (where M is Li, K, Na, Ca, Co, Fe(II), Sn); C 5 h 8 NNaO 4 4H 2 O; C 5 h 8 KNO 4 4H 2 O; C 10 h 16 o 8 N 2 Ca·H 2 O, C 5 h 7 MgNO 4 ·H 2 O; C 6 h 5 m 3 o 7 4H 2 O (where M is Li, K, Na), Zn 3 (C 6 h 5 o 7 ) 2 4H 2 O, C 12 h 10 Ca 3 o 14 4H 2 O; CHO 2 M·4H 2 O (where M is Li, K, Na), C 2 h 2 o 4 Ca·4H 2 O, C 2 h 6 MgO 6 4H 2 O; C 2 h 3 MO 2 4H 2 O (where M is Li, K, Na); C 6 h 11 LiO 7 4H 2 O (where M is Li, K, Na, respectively).

[0045] Step 1: The original splits are subjected to acetone wet ball milling;

[0046] Step 2: After wet ball milling for 8 hours, place the original powder in an oven at 80°C for 24 hours;

[0047] Step 3: Take the dried sample in Step 2 for grinding pretreatment.

[0048]Aqueous acetic acid assisted pretreatment. Take the various powders dried in step 2 and grind them separately for 20 minutes. During the grinding process, add 1.5mol / L acetic acid aqueous solution until t...

Embodiment 3

[0052] MC 2 o 4 2H 2 O (where M is Li, K, Na, Ca, Co, Fe(II), Sn); C 5 h 8 NNaO 4 2H 2 O; C 5 h 8 KNO 4 2H 2 O; C 10 h 16 o 8 N 2 Ca·2H 2 O, C 5 h 7 MgNO 4 2H 2 O; C 6 h 5 m 3 o 7 2H 2 O (where M is Li, K, Na), Zn 3 (C 6 h 5 o 7 ) 2 2H 2 O, C 12 h 10 Ca 3 o 14 2H 2 O; CHO 2 M·2H 2 O (where M is Li, K, Na), C 2 h 2 o 4 Ca·2H 2 O, C 2 h 6 MgO 6 2H 2 O; C 2 h 3 MO 2 2H 2 O (where M is Li, K, Na); C 6 h 11 LiO 7 2H 2 O (where M is Li, K, Na, respectively).

[0053] Step 2: After wet ball milling for 8 hours, place the original powder in an oven at 70°C for 20 hours;

[0054] Step 3: Take the dried sample in Step 2 for grinding pretreatment; deionized water assists in pretreatment. Take the various powders dried in step 2 and grind them separately for 15 minutes. During the grinding process, add deionized water one after another until the color of the powders deepens to ensure that the particles are evenly mixed with the acetic a...

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Abstract

The invention discloses an organic acid salt electronic functional ceramic, a preparation method and application thereof. The chemical composition of theorganic acid salt electronic functional ceramic comprises a single organic acid salt, wherein the organic acid salt comprises an oxalic acid-series organic acid salt, a glutamic acid-series organic acid salt, a citric acid-series organic acid salt, a formic acid-series organic acid salt, an acetic acid-series organic acid salt or a gluconic acid-series organic acid salt. According to the invention, single organic acid salt powder is adopted for sintering, the pressure load during sintering is 150-350 MPa, the sintering temperature is 20-300 DEG C, the heating rate is 10-15 DEG C / min, the sintering time is 40-150 min, and the organic acid salt electronic functional ceramic with the density larger than or equal to 95% is obtained after sintering is completed; the organic acid salt electronic functional ceramic is applied to piezoresistors, microwave dielectric ceramics and magnetic dielectric coupling ceramics; and on the premise of reducing the process difficulty and cost, the electronic functional ceramic with remarkable direct-current voltage-sensitive characteristic or excellent microwave dielectric property is obtained.

Description

technical field [0001] The invention belongs to the application field of power electronics and electronic information, and relates to an electronic functional ceramic and its manufacturing method and application. Background technique [0002] Due to their own physical properties, such as: acoustic, optical, thermal, electrical, magnetic and mechanical properties, electronic functional ceramics are widely used in the fields of electronic information, microelectronics, and Internet of Things sensors. Traditional electronic functional ceramics are prepared from one inorganic compound or dense composite ceramic materials are prepared from multiple inorganic compounds through different processing techniques. [0003] If traditional electronic functional ceramics want to achieve doping with organic polymer materials to improve their physical properties, low-temperature sintering technology is required to dope organic polymer materials such as inorganic compound matrix to form comp...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C07C51/41C07C55/07C07C59/265C07C53/06C07C53/10C07C59/285C07C227/18C07C229/24H01C7/10H01C17/00H01F1/42
CPCC07C51/412C07C227/18H01C17/00H01C7/10H01F1/42C07C55/07C07C59/265C07C53/06C07C53/10C07C59/285C07C229/24
Inventor 郭靖司明明李晓萌付长利薛仙汪宏郝建宇
Owner XI AN JIAOTONG UNIV
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