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Constrained ceramic-metal composite bulletproof armored plate and making method thereof

A metal composite plate and metal composite technology, applied in the direction of protective equipment, armor plate structure, armor, etc., can solve the problems of inconvenient regulation and design of compression prestress, weakening bulletproof effect of bulletproof plate, complicated operation of existing means, etc., to achieve Ease of processing and design, uniform distribution, broad application prospects

Active Publication Date: 2019-01-04
XI AN JIAOTONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The existing technical means of imposing restraint often need to add a metal plate in front of the ceramic, which will greatly weaken the bulletproof effect of the bulletproof plate
In addition, the magnitude of the compressive prestress applied by it is not easy to control and design, and the existing methods are complicated to operate and expensive

Method used

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  • Constrained ceramic-metal composite bulletproof armored plate and making method thereof
  • Constrained ceramic-metal composite bulletproof armored plate and making method thereof
  • Constrained ceramic-metal composite bulletproof armored plate and making method thereof

Examples

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preparation example Construction

[0043]A constrained ceramic-metal composite bulletproof armor plate and a preparation method thereof of the present invention, first cut a circular hole on the metal constrained plate; then heat the metal constrained plate, fill the circular hole with a cylindrical shape with a diameter slightly larger than the initial diameter of the circular hole The ceramic block is then cooled; finally, the adhesive is applied to the metal back plate, and the metal constraining plate and the ceramic are bonded; the specific steps are as follows:

[0044] S1. Laser line cutting is used to drill circular holes on the metal constraining plate 2, and the surface roughness R of the inner holes is controlled during the cutting process. a ≤3.2μm;

[0045] S2, prepare cylindrical ceramic block 3, grind the surface of cylindrical ceramic block 3 to make its surface roughness R a ≤3.2μm;

[0046] The diameter of the cylindrical ceramic block 3 is larger than the diameter of the round hole of the m...

Embodiment 1

[0054] see figure 1 ;

[0055] (1) Take a piece of TC4 titanium alloy plate whose length, width, and height are 120mm, 120mm, and 6mm respectively, and use laser cutting to cut a circular hole with a diameter of 99.6mm in the center of the TC4 titanium alloy plate. The cutting process controls the surface of the inner hole Roughness R a ≤3.2μm;

[0056] (2) Prepare a cylindrical boron carbide ceramic block with a diameter of 100 mm and a height of 6 mm, and grind the surface of the ceramic block to make its surface roughness R a ≤3.2μm;

[0057] (3) Put the cut TC4 titanium alloy constraining plate into the muffle furnace, raise the temperature at a rate of 25°C / min, and keep it warm for 2min when the temperature reaches 900°C; then place the boron carbide at room temperature in the muffle furnace The ceramic block is placed in the circular hole of the TC4 titanium alloy constrained plate after high temperature expansion; the muffle furnace is closed to cool the TC4 titani...

Embodiment 2

[0060] see figure 2 ;

[0061] (1) Take a 40CrNiMo steel plate whose length, width, and height are 150mm, 150mm, and 6mm respectively, and use wire cutting to cut three rows and three columns of nine circular holes with a diameter of 39.8mm on the 40CrNiMo steel plate. The center is aligned, the distance between the center of the circular hole is 50mm, and the surface roughness R of the inner hole is controlled during the cutting process a ≤3.2μm;

[0062] (2) Prepare 9 cylindrical silicon carbide ceramic blocks with a diameter of 40 mm and a height of 6 mm, and grind the surface of the ceramic block to make its surface roughness R a ≤3.2μm;

[0063] (3) Put the cut 40CrNiMo steel restraint plate into the muffle furnace, raise the temperature at a rate of 40°C / min, and keep it warm for 3min when the temperature reaches 850°C; then carbonize the 9 pieces at room temperature in the muffle furnace The silicon ceramic block is placed in the circular hole of the 40CrNiMo steel...

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Abstract

The invention discloses a constrained ceramic-metal composite bulletproof armored plate and a making method thereof. The constrained ceramic-metal composite bulletproof armor plate consists of a plurality of constrained ceramic-metal composite bulletproof units; each constrained ceramic-metal composite bulletproof unit comprises a metal back plate, a metal constrained plate and a ceramic block, wherein the metal constrained plate and the ceramic block are arranged on the metal back plate, the ceramic block is arranged in the metal constrained plate, and the ceramic block and the metal constrained plate are assembled and connected through interference fit. The constrained ceramic-metal composite bulletproof armored plate disclosed by the invention has a broad application prospect in variousbulletproof occasions of armed helicopters, armored cars, ships and warships, tanks and the like.

Description

technical field [0001] The invention belongs to the technical field of ceramic composite bulletproof armor design and preparation, in particular to a constrained ceramic-metal composite bulletproof armor plate and a preparation method thereof. Background technique [0002] Traditional ceramic composite bulletproof panels usually use brittle ceramics as the front panel and tough metal as the backplane. Compared with homogeneous metal bulletproof panels, they have lighter weight and stronger protection capabilities. Therefore, this type of ceramic bulletproof plate is widely used in armed helicopters, armored vehicles, ships and tanks. However, this double-layer ceramic-metal composite bulletproof plate is only a simple laminated composite structure. After a single bullet hits, the ceramic panel will be cracked and damaged in a large area, and the bonding interface between the ceramic and the back plate will also crack and delaminate. , which will cause the composite bulletpr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F41H5/04B23P15/00
CPCB23P15/00F41H5/0421
Inventor 卢天健张瑞韩宾李朗张钱城金峰徐敏
Owner XI AN JIAOTONG UNIV
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