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Preparation method of pressureless sintered boron carbide ceramics based on coarse particle powder

A boron carbide ceramic and coarse particle technology, which is applied in the field of structural ceramics, can solve the problems of high price and large-scale promotion and application of boron carbide ceramics, complicated grinding process and high price, and achieves promotion of large-scale promotion and application, good mechanical properties, low cost effect

Active Publication Date: 2017-06-13
YANTAI BRANCH NO 52 INST OF CHINA NORTH IND GRP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The advantage of the pressureless sintering process is that it is suitable for large-scale production and can prepare large-sized and complex-shaped structural components. Due to process limitations, the current pressureless sintering of boron carbide mostly uses ultra-fine powders below 2 microns as raw materials, thereby improving the boron carbide ceramics. Sintering activity, to obtain a densified sintered body, but the grinding process of micron-sized boron carbide ultrafine powder is complicated and the price is high. Therefore, although the price of pressureless sintered boron carbide ceramics is lower than that of hot-pressed products, compared with other Carbide structural ceramics are still expensive
[0004] The higher price of boron carbide ceramics has become the biggest obstacle restricting its large-scale promotion and application

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] Put 900 grams of boron carbide powder (D50 ≥ 2 μm), 65 grams of carbon powder, 10 grams of yttrium oxide powder, and 2600 grams of deionized water into the mixing container of the ball mill, add 240 grams of phenolic resin, 10 grams of polyvinyl alcohol and 20 grams of dispersant (ammonium polyacrylate) for ball milling. Control the mixing time of the ball mill, the speed of the ball mill, and the ball-to-material ratio to prepare a slurry suitable for spray drying and granulation. Specifically: use polyurethane balls as the medium balls during ball milling, the diameter of the balls is 10mm, and the ball-to-material ratio is the weight of the medium balls The ratio of boron carbide, carbon powder, and yttrium oxide to the sum of the three raw materials is 3:1, the mixing time of the ball mill is 12 hours, the pH value of the slurry is 8-10, and the speed of the ball mill is 80 rpm. Then, the granulated powder is obtained through spray granulation, specifically: after t...

Embodiment 2

[0033] Add 910 grams of boron carbide powder (D50 ≥ 2 μm), 60 grams of carbon powder, 9 grams of yttrium oxide powder, and 2500 grams of deionized water into the mixing container of the ball mill, add 250 grams of phenolic resin, 10 grams of polyvinyl butyral and 20 grams of dispersant (ammonium citrate) were ball milled (ball milled pulping process as in Example 1). Then, the granulated powder is obtained through spray granulation, specifically: after the slurry is passed through a 300-mesh sieve, the slurry is sent to the centrifugal turntable nozzle of the spray drying granulator with a peristaltic pump, and the rotating speed of the centrifugal turntable is 6000 rpm , form tiny mist droplets, the inlet temperature of the spray drying granulator is 150°C, and the outlet temperature is 110°C. The obtained granulated powder is dry-pressed at 150 MPa to obtain a green body; the green body is put into a vacuum sintering furnace for pressureless sintering, and an inert protectiv...

Embodiment 3

[0036]Put 920 grams of boron carbide powder (D50 ≥ 2 μm), 55 grams of carbon powder, 10 grams of yttrium oxide powder, and 2700 grams of deionized water into the mixing container of the ball mill, add 250 grams of phenolic resin, 10 grams of polyvinyl alcohol and 20 grams of dispersant (ammonium polyacrylate) was ball milled (the ball milled pulping process is as in Example 1). Then, the granulated powder is obtained through spray granulation, specifically: after the slurry is passed through a 300-mesh sieve, the slurry is sent to the centrifugal turntable nozzle of the spray drying granulator with a peristaltic pump, and the rotating speed of the centrifugal turntable is 6000 rpm , form tiny mist droplets, the inlet temperature of the spray drying granulator is 150°C, and the outlet temperature is 110°C. The obtained granulated powder is dry-pressed at 150MPa to obtain a green body; put the green body into a vacuum sintering furnace for pressureless sintering, keep the vacuum...

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Abstract

The invention relates to a pressureless sintering boron carbide ceramic preparation method of using more than 2 microns of coarse-grained powder as a raw material. The preparation method comprises the following steps: putting 70-80 wt% of boron carbide (D50 is greater than or equal to 2 microns), 4-8 wt% of powdered carbon, 0.7-2 wt% of yttrium oxide powder and the balance a binder and a dispersant into a mixing container of a ball mill, adding deionized water and ball-milling for pulping so as to obtain slurry with solid content being 25-45 wt%; preparing granulation powder from the slurry by using a spray drying granulating machine; pressing the granulation powder at 100-200 MPa by a dry pressing or isostatic cool pressing process to generate a green body; and putting the green body into a vacuum furnace, and carrying out thermal insulation at 200-2300 DEG C for 0.5-5h to finish sintering by a vacuum or pressureless sintering mode so as to obtain boron carbide ceramic. As the low-cost coarse-grained boron carbide powder is used as the raw material, manufacturing cost of the boron carbide ceramic can be reduced greatly by the pressureless sintering process for large-scale production. The boron carbide ceramic is suitable for fields of nuclear power, semiconductor equipment, armor protection and the like.

Description

technical field [0001] The invention relates to a method for preparing low-cost boron carbide ceramics by using coarse particle boron carbide powder as a raw material through a pressureless sintering process, belonging to the field of structural ceramics. Background technique [0002] Boron carbide ceramics are used as neutron absorbing materials because of their low density, high hardness (second only to diamond and cubic boron nitride), high elastic modulus, corrosion resistance, wear resistance, neutron absorption and high temperature semiconductor properties. Bulletproof materials, wear-resistant nozzles, semiconductor precision structural components, etc., are widely used in nuclear energy, national defense and machinery and other fields. [0003] The covalent bond fraction of boron carbide ceramics is more than 90%, the self-diffusion coefficient is very low, the elimination of pores, the mass transfer mechanism of grain boundaries and volume diffusion require extremel...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B35/563C04B35/64
Inventor 曹剑武李志鹏燕东明王静慧牟晓明李康赵斌贾书波杨双燕常永威满蓬张武曲俊峰李国斌
Owner YANTAI BRANCH NO 52 INST OF CHINA NORTH IND GRP
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