Fire-retardant type wide-frequency-band high-power compound wave-absorbing material and preparing method thereof

A composite absorbing material and a wide-band technology, which is applied in the intersection of materials science and microwave technology, and can solve problems such as bending, fire accidents, and difficulty in dissipating heat.

Active Publication Date: 2013-10-09
NANJING LUOPU TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] However, the polyurethane foam absorbing material itself also has insurmountable shortcomings: First, although the polyurethane foam absorbing material has undergone flame-retardant treatment, due to the characteristics of the polyurethane foam itself, it is difficult for the oxygen index to exceed 30, and the flame-retardant performance can only reach B2. level, prone to fire accidents in some extreme cases
Second, polyurethane foam has poor power resistance. When high-power electromagnetic waves radiate on the polyurethane foam absorbing material, most of the electromagnetic wave energy is converted into heat after being absorbed by the foam core due to the electrical loss of the absorbing agent. The excellent thermal insulation performance of the sponge material makes it difficult to dissipate heat, which makes the core temperature of the polyurethane absorbing material rise sharply, resulting in the failure of the absorbing agent in the absorbing material, and even fire accidents in some cases
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Method used

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  • Fire-retardant type wide-frequency-band high-power compound wave-absorbing material and preparing method thereof
  • Fire-retardant type wide-frequency-band high-power compound wave-absorbing material and preparing method thereof
  • Fire-retardant type wide-frequency-band high-power compound wave-absorbing material and preparing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0049] Embodiment 1 manufactures the shell of absorbing material

[0050] The first step is to mix the components in the following table according to the weight ratio, and ball mill evenly to obtain the first flame retardant and wave absorbing agent;

[0051] components

Range of weight ratio

The weight ratio of this embodiment

Acetylene carbon black

2~5

4

α-SiC

1~3

2

Deionized water

60~63

62

PVA solution

10~15

12.5

Aluminum hydroxide

10~15

15

Kaolin

2~5

5

pentaerythritol

1~3

2

Ammonium polyphosphate App-3

1~2

1

lubricant

0.1~0.2

0.2

Dispersant

0.1~0.2

0.2

Defoamer

0.1~0.2

0.1

[0052] The ball milling speed is at least 200 rpm, and the ball milling time is at least 4 hours; the mass concentration of the PVA solution is 4-20% (preferably 5%); the wetting agent is PE100; the dispersant is S...

Embodiment 2

[0056] Example 2 Prepare the core and base of the absorbing material, and prepare the absorbing material

[0057] The first step is to mix the components in the following table according to the weight ratio, and ball mill evenly to obtain the second flame retardant and wave absorbing agent;

[0058] components

Range of weight ratio

The weight ratio of this embodiment

Acetylene carbon black

5~8

6

α-SiC

3~5

3

Deionized water

63~66

65

PVA solution

10~15

12.5

Aluminum hydroxide

3~5

5

Kaolin

2~5

5

pentaerythritol

2~5

2

Ammonium polyphosphate App-3

1~3

1

lubricant

0.1~0.2

0.2

Dispersant

0.1~0.2

0.2

Defoamer

0.1~0.2

0.1

[0059] The ball milling speed is at least 200 rpm, and the ball milling time is at least 4 hours; the mass concentration of the PVA solution is 4-20% (preferably 5%); the wetti...

Embodiment 3

[0063] Embodiment 3 Reflection loss performance detection

[0064] For the microwave-absorbing material prepared in Example 2, its reflection loss performance to 0.02-40GHz microwaves was detected, and the results are shown in the table below, indicating that the microwave-absorbing material obtained in Example 2 has excellent reflection loss performance in the 0.2-40GHz microwave band .

[0065]

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Abstract

The invention relates to a fire-retardant type wide-frequency-band high-power compound wave-absorbing material and a preparing method thereof. The material comprises an outer shell, an inner core and a base, wherein the outer shell is a polyhedron formed by a set of pyramids arranged side by side, the wedges of the pyramids are towards the same side, the inner core is located inside the outer shell, the base is located at the bottom of the outer shell, the outer shell is made of non-woven cloths, the inner core and the base are made of polyurethane foams, the inner surface and the outer surface of the outer shell are respectively provided with a first fire-retardant wave-absorbing agent layer in a coating mode, and the inner core and the base are immersed in second fire-retardant wave-absorbing agents. Both the first fire-retardant wave-absorbing agents and the second fire-retardant wave-absorbing agents comprise acetylene black, alpha-SiC, aluminum hydroxide, kaolin, pentaerythritol, and App-3. The corresponding preparing method comprises the steps of preparing the outer shell, preparing the inner core and the base, and inserting the inner core into the outer shell, and therefore the wave-absorbing material is obtained. The wave-absorbing material has good wave absorbing performance and fire retardance, and the preparing method is simple and easy to implement.

Description

technical field [0001] The invention relates to a flame-retardant wide-band high-power composite wave-absorbing material and a preparation method thereof, belonging to the cross field of material science and microwave technology. Background technique [0002] As far as the applicant knows, an anechoic chamber refers to the use of wave-absorbing materials (ie, microwave absorbing materials) to pave the inner wall to reduce electromagnetic wave reflection, thereby forming a close to "free space" (ie, an open space without electromagnetic wave reflection) or "semi-free space" (ie, open space with only ground reflections). The anechoic chamber can simulate the "open field" to carry out the measurement, debugging and comprehensive experiments of radar, radio and military and civilian electronic and electrical equipment. The performance of the anechoic chamber mainly depends on the performance of the absorbing material. Absorbing materials are a class of materials that can absor...

Claims

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Application Information

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IPC IPC(8): H05K9/00D06M15/333D06M11/45D06M11/74D06M11/77D06M11/79D06M13/148D06M11/71C08J9/40
Inventor 王磊朱俊阳蒋微波
Owner NANJING LUOPU TECH CO LTD
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