Epoxy resin seepy material and preparation method thereof and application

A technology of epoxy resin and water-permeable material, applied in application, other household appliances, household appliances, etc., can solve the problems of complicated operation and high-temperature curing, and achieve the effect of uniform pore distribution, excellent water permeability and air permeability, and uniform pore size distribution.

Active Publication Date: 2017-01-04
国科广化(南雄)新材料研究院有限公司 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

In order to obtain a stable water-in-oil (W/O) aqueous dispersion in this method, it is necessary to add a variety of surfactants with diff

Method used

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  • Epoxy resin seepy material and preparation method thereof and application
  • Epoxy resin seepy material and preparation method thereof and application
  • Epoxy resin seepy material and preparation method thereof and application

Examples

Experimental program
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Example Embodiment

[0042] Example 1

[0043] At room temperature of 35°C, 64.8g of water, 51.84g of silicon micropowder, 9.72g of aluminum oxide powder, 1.12g of boron oxide, and 1.12g of zinc oxide (the average particle size of the filler is 1250 mesh) were added into the container and mixed uniformly to obtain Aqueous phase component; In another container, add 101.6g epoxy resin, 60.47g epoxy resin curing agent, 10.68g butyl glycidyl ether, 10.04g polyetheramine T403 containing polyoxypropylene segment, 10g 2, 3,6-Tris(dimethylaminomethyl)phenol was mixed and stirred evenly at 35°C to the oil phase components; then all the water phase components were transferred to the oil phase components under the condition of rapid stirring, and stirred After homogenization, the mixed slurry is obtained, and the mixed slurry is quickly transferred to a water-impermeable plastic mold, and cured for 12 hours at room temperature of 35 °C. After curing, the mold is released. The water permeability, water absorp...

Example Embodiment

[0044] Example 2

[0045] 136.9g of water, 123.24g of calcined kaolin, 41.08g of aluminum oxide powder, 20.54g of zinc oxide, 30.81g of boron oxide, 10.27g of magnesium oxide (the average particle size of the filler is 800 mesh) was added to the container at room temperature of 25°C Mix evenly to obtain the water phase components; add 100.04g epoxy resin, 60.68g epoxy resin curing agent, 10.16g trimethylol triglycidyl ether, 10.01g polyoxypropylene segment-containing polymer into another container Etheramine D230, 10.24g of dimethylaniline were mixed and stirred at 25°C to obtain oil phase components; then all the water phase components were transferred to the oil phase components under the condition of rapid stirring, and after stirring uniformly, the obtained Mix the slurry, quickly transfer the mixed slurry to a water-impermeable plastic mold, let it stand for 24 hours at room temperature at 25°C, and release the mold after curing. Test the water permeability, water absorpt...

Example Embodiment

[0046] Example 3

[0047] 164.6g of water, 148.08g of silicon micropowder, 74.04g of boron oxide, 14.81g of lead oxide, and 9.87g of zinc oxide (the average particle size of the filler is 600 mesh) were added to the container at room temperature of 15°C and mixed evenly to obtain the water phase components ; To another container, add 83.67g epoxy resin, 50.56g epoxy resin curing agent, 18.02g butyl glycidyl ether, 9.04g polyetheramine T403 containing polyoxypropylene segment, 7.51g 2,3,6 -Tris(dimethylaminomethyl)phenol is mixed and stirred uniformly to the oil phase components at 15°C; then all the water phase components are transferred to the oil phase components under the condition of rapid stirring, and the obtained after stirring uniformly Mix the slurry, quickly transfer the mixed slurry to an impermeable plastic mold, stand at room temperature at 15°C for 36 hours of curing, demould after curing, and test the water permeability, water absorption, porosity and pore size ...

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Abstract

The invention belongs to the technical field of epoxy resin preparation and discloses an epoxy resin seepy material and a preparation method thereof and application. The epoxy resin seepy material is prepared from, by weight percentage, 5-35% of epoxy resin, 5-30% of modified self-emulsifying epoxy hardener, 0.5-3% of polyether polyamine, 0.5-3.5% of epoxy resin accelerator, 1-3.5% of epoxy resin diluent, 35-10% of water and 53-15% of inorganic filler. The modified self-emulsifying epoxy hardener is ricinoleic acid and/or fatty polyamine and/or alicyclic polyamine modified by a polymer of the ricinoleic acid. The epoxy resin seepy material has excellent seepy and breathable performances, the pore diameter of the epoxy resin seepy material is smaller than 20 [mu]m, the porosity is larger than 20%, the water absorption rate is larger than 20%, the pore diameter distribution is uniform, the surface is bright and clean, and the epoxy resin seepy material can be used for manufacturing ceramic industry slip casting dies, filter materials and air purification materials.

Description

technical field [0001] The invention belongs to the technical field of epoxy resin preparation, and in particular relates to an epoxy resin water-permeable material and its preparation method and application. Background technique [0002] Water-permeable material is a kind of porous material, which realizes the transfer of water and gas inside the material through the pore channels inside the material. It is widely used in construction, environmental protection, chemical industry, water treatment, catalysis and other fields. For example, urban roads use permeable materials for drainage, catalyst carriers, filter materials in the water treatment process, filter materials used in the separation process of chemical production, and mold materials for grouting molding used in the ceramic industry. [0003] At present, there are many preparation processes and methods for water-permeable materials. Most of the epoxy resin microporous water-permeable materials prepared with epoxy re...

Claims

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Application Information

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IPC IPC(8): C04B26/14C04B38/00
CPCC04B26/14C04B38/00C04B2111/00284C04B14/06C04B14/303C04B14/30C04B24/023C04B24/2605C04B24/02C04B14/304C04B24/121C04B14/106
Inventor 王斌陈建军黄月文
Owner 国科广化(南雄)新材料研究院有限公司
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