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Conductive rubber material used for flexible sensor as well as preparation method and application of conductive rubber material

A flexible sensor and conductive rubber technology, which is applied in the field of flexible sensors, can solve problems such as complex structures and poor flexibility of strain sensors, and achieve the effects of simple and controllable methods, consistency, and low environmental pollution

Inactive Publication Date: 2016-05-04
SHENZHEN HUIRUI ELECTRONICS MATERIALS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The purpose of the present invention is to provide a conductive rubber material for flexible sensors, which aims to solve the problems of poor flexibility and complex structure of existing metal type, metal alloy type or semiconductor type strain sensors

Method used

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  • Conductive rubber material used for flexible sensor as well as preparation method and application of conductive rubber material
  • Conductive rubber material used for flexible sensor as well as preparation method and application of conductive rubber material
  • Conductive rubber material used for flexible sensor as well as preparation method and application of conductive rubber material

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preparation example Construction

[0061] The preparation method of the conductive rubber material according to the embodiment of the present invention adopts electron beam or γ-ray radiation for cross-linking, the cross-linking degree of the rubber can be adjusted at will by controlling the absorbed dose, and the electron beam or γ-ray can penetrate the rubber adhesive layer. , so that the overall cross-linking degree of the rubber is consistent and uniform; when the rubber conductive material is used as the sensor sensitive unit material, the uniformity of the distribution of the resistance value of the strain sensor can be achieved, especially the change of electrical signals such as resistance and capacitance under the action of external force Sensitivity, stability, recovery and other properties. In addition, the method in the embodiment of the present invention is simple and controllable, and is easy to realize industrialization.

[0062] And, a strain-type sensor, comprising a sensitive unit and metal el...

Embodiment 1

[0071] A conductive rubber material for a flexible sensor, comprising the components described in Table 1, Example 1, and the conductive rubber material is prepared by dispersing conductive fillers in the rubber material, exposing it to electron beam or γ-ray radiation. combined.

[0072] And, the preparation method of the conductive rubber material for the flexible sensor includes the following steps:

[0073] S11. Weigh each component according to the above formula of the conductive rubber material for the flexible sensor;

[0074] S12. adding the rubber matrix and the conductive filler into an open mill for mixing, the mixing time is 20 minutes, and the various fillers are mixed evenly and then thinly passed out to obtain a mixed rubber;

[0075] S13. molding the mixed rubber with a rubber plate vulcanizer to obtain a sheet-like rubber material, and the sheet-like rubber material size is length 100mm×width 100mm×thickness 1mm;

[0076] S14. Use the method of electron beam...

Embodiment 2

[0079] A conductive rubber material for a flexible sensor, comprising the components described in Table 1, Example 2, and the conductive rubber material is prepared by dispersing conductive fillers in the rubber material, exposing it to electron beam or γ-ray radiation. combined.

[0080] And, the preparation method of the conductive rubber material for the flexible sensor includes the following steps:

[0081] S21. Weigh each component according to the above formula of the conductive rubber material for the flexible sensor;

[0082] S22. adding the rubber matrix and the conductive filler into an open mill for kneading, the kneading time is 20 min, and the various fillers are uniformly mixed and thinly passed out to obtain a mixed rubber;

[0083] S23. molding the mixed rubber with a rubber plate vulcanizer to obtain a sheet-like sizing material, and the sheet-like sizing material size is length 100mm×width 100mm×thickness 1mm;

[0084] S24. Use the method of electron beam o...

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Abstract

The invention provides a conductive rubber material used for a flexible sensor as well as a preparation method and application of the conductive rubber material, and is applicable to the field of flexible sensors. The conductive rubber material is prepared from the following components in parts by weight: 100 parts of a rubber base body and 5 to 100 parts of conductive fillers, wherein the rubber base body is a rubber base body containing cis-1,4-isoprene structure; the conductive rubber material is prepared by dispersing the conductive fillers into a rubber material, radiating by electronic beams or gamma rays and crossly linking.

Description

technical field [0001] The invention belongs to the field of flexible sensors, and in particular relates to a conductive rubber material for flexible sensors and a preparation method and application thereof. Background technique [0002] A strain sensor is a device that can convert mechanical deformation information into electrical signal output such as resistance or capacitance. In 1885, the British physicist Kelvin discovered that when the metal undergoes mechanical deformation after being subjected to pressure (tension or torsion), the resistance value also undergoes a characteristic variation, which is called the strain-resistance effect. Inspired by this, people derive the characteristics and magnitude of the material's force from the change in resistance value, so as to manufacture so-called strain sensors, mainly including pressure strain sensors and tensile strain sensors. At present, metals, metal alloys and semiconductor materials with piezoresistive effect have b...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L7/00C08L9/00C08L15/00C08K3/04C08J3/28C08J3/24H01B1/24G01L1/14G01L1/22
CPCC08K3/04C08J3/24C08J3/28C08J2307/00C08J2309/00C08J2315/00C08J2415/00C08K2201/001C08K2201/003C08K2201/006C08L7/00C08L2312/06G01L1/142G01L1/22H01B1/24C08L9/00C08L15/00
Inventor 李大军徐行涛方斌
Owner SHENZHEN HUIRUI ELECTRONICS MATERIALS
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