A preparing method of a tree-form silicone rubber dielectric elastomer material

A dielectric elastomer and silicone rubber technology is applied in the field of preparation of tree-shaped silicone rubber dielectric elastomer materials, which can solve the problems of high driving voltage, high electrode resistance, poor electro-deformation performance, etc., and achieve high precision High, flexible and reliable product quality

Inactive Publication Date: 2017-02-15
丁玉琴
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The technical problem mainly solved by the present invention: In view of the defects of poor electro-deformation performance, high driving voltage, and high electrode resistance of traditional dielectric elastomer materials, the present invention uses methylphenyldichlorosilane and dimethyl Dichlorosilane reaction, after collecting the organic layer, add potassium hydroxide to continue the reaction, then react with siloxane and 3-aminopropyltriethoxysilane, then esterify with methyl acrylate, and end-cap with diethylamine , and then extracted with acetone to prepare a dendritic silicone rubber acetone solution for later use, take the treated barium titanate dispersion and sodium alginate for ultrasonic dispersion, filter, calcinate, and ball mill, and stir the obtained particles with the dendritic silicone rubber acetone solution, Finally, add dibutyl phosphate etc. and place it in the mold for curing and demoulding to obtain a tree-shaped silicone rubber dielectric elastomer material. The invention utilizes the interfacial interaction between sodium alginate particles and the silicone rubber composite material to effectively Improve the dispersion of fillers, significantly improve the dielectric properties and electro-deformation properties of composite materials, and have better use value

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0018] First weigh 10g of methylphenyldichlorosilane into a three-neck flask equipped with a thermometer and a reflux device, then add 100mL of deionized water, and place it in a water bath, raise the temperature to 60°C, stir for 5min, and then add 15g of dichlorosilane Methyldichlorosilane, stirred and reacted for 3 hours, the reaction was completed, stood still for 10 minutes, separated, removed the water layer to obtain an organic layer, added 3 g of potassium hydroxide powder to the organic layer, raised the temperature to 80 ° C, stirred and reacted for 1 hour, and obtained a ring Shaped polymethylphenylsiloxane; Add 3g octamethylcyclotetrasiloxane and 5g tetramethyltetravinylcyclotetrasiloxane successively to the above-mentioned cyclopolymethylphenylsiloxane, and stir to react 5h, then add 2g of 3-aminopropyltriethoxysilane, stir the reaction for 7h, filter, the obtained filter residue is 3-aminopropyl silicone rubber; add 3-aminopropyl silicone rubber into the three-nec...

example 2

[0021]First weigh 13g of methylphenyldichlorosilane into a three-necked flask with a thermometer and a reflux device, then add 150mL of deionized water, and place it in a water bath, raise the temperature to 65°C, stir for 7 minutes, and then add 17g of dichlorosilane Methyldichlorosilane, stirred and reacted for 3.5h, after the reaction was completed, stood still for 15min, separated the liquid, removed the water layer to obtain an organic layer, added 4g of potassium hydroxide powder to the organic layer, raised the temperature to 85°C, and stirred for 1.5h. Obtain cyclic polymethylphenylsiloxane; Add 4g octamethylcyclotetrasiloxane, 7g tetramethyltetravinylcyclotetrasiloxane successively in above-mentioned cyclopolymethylphenylsiloxane, Stir the reaction for 5.5 hours, then add 2.5g of 3-aminopropyl triethoxysilane, stir the reaction for 7.5 hours, filter, and the obtained filter residue is 3-aminopropyl silicone rubber; add 3-aminopropyl silicone rubber to the three Add 15...

example 3

[0024] First weigh 15g of methylphenyldichlorosilane into a three-necked flask equipped with a thermometer and a reflux device, then add 200mL of deionized water, and place it in a water bath, raise the temperature to 70°C, stir for 10min, and then add 20g of dichlorosilane Methyldichlorosilane, stirred and reacted for 4 hours, the reaction was completed, stood still for 20 minutes, separated, removed the water layer to obtain an organic layer, added 5 g of potassium hydroxide powder to the organic layer, raised the temperature to 90 ° C, stirred and reacted for 2 hours, and obtained a ring Shaped polymethylphenylsiloxane; Add 5g octamethylcyclotetrasiloxane and 8g tetramethyltetravinylcyclotetrasiloxane successively to the above-mentioned cyclopolymethylphenylsiloxane, stir and react 6h, then add 3g of 3-aminopropyltriethoxysilane, stir and react for 8h, filter, the obtained filter residue is 3-aminopropyl silicone rubber; add 3-aminopropyl silicone rubber into the three-necke...

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Abstract

The invention discloses a preparing method of a tree-form silicone rubber dielectric elastomer material, and belongs to the technical field of dielectric elastomer materials. The method includes weighing methylphenyldichlorosilane and dimethyldichlorosilane, reacting, collecting an organic layer, adding potassium hydroxide, reacting continuously, reacting with siloxane and 3-aminopropyltriethoxysilane, esterifying with methyl acrylate, end-capping with diethylamine, extracting with acetone to prepare a tree-form silicone rubber acetone solution, keeping for later use, subjecting a processed barium titanate dispersing liquid and sodium alginate to ultrasonic dispersion and other types of operation to obtain particles, stirring the particles and the tree-form silicone rubber acetone solution, adding dibutyl phosphate and the like, adding into a mold, curing and demolding to obtain the tree-form silicone rubber dielectric elastomer material. By utilizing interface functions of sodium alginate particles and a silicone rubber composite material, filler dispersion is effectively improved, dielectric performance and electrodeformation performance of the composite material are obviously improved, and the dielectric elastomer material has high using value.

Description

technical field [0001] The invention discloses a preparation method of a tree-shaped organosilicon rubber dielectric elastomer material, which belongs to the technical field of dielectric elastomer materials. Background technique [0002] Dielectric elastomers are the most potential electric field active polymer materials for active actuators. Electroactive polymer is a new type of intelligent polymer material, which can undergo deformation such as stretching, bending, tightening or expansion under the action of an external electric field through the change of the internal structure of the material. It can produce a strong displacement, but requires a high field strength of the excitation electric field. With the continuous development of precision manufacturing and microelectronics technology, people put forward higher and higher requirements for modern drives, which will have large driving force, large output displacement, high operating frequency, fast response speed, st...

Claims

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Application Information

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IPC IPC(8): C08L83/08C08K13/06C08K9/10C08K3/24C08K5/521C08K5/098C08G77/04C08G77/388
CPCC08K13/06C08G77/04C08G77/388C08K3/24C08K5/098C08K5/521C08K9/10
Inventor 丁玉琴孟浩影陆娜
Owner 丁玉琴
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