Jelly-paraffin-containing phase transition energy storage perlite and self-temperature-adjustment phase transition mortar

A phase change energy storage and perlite technology, which is applied in the field of building materials, can solve the problems of phase change materials and phase change mortar leakage preparation process, complexity and other problems, and achieve good construction stability, less leakage and good phase change stability. Effect

Inactive Publication Date: 2018-05-18
SHANGHAI LIULI NANO MATERIAL SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In order to overcome the deficiencies in the prior art, the present invention provides a preparation method containing jelly phase change material perlite particles and phase change perlite self-regulating cement mortar prepared from the granular assembly of the phase change material to overcome Leakage of phase change materials and phase change mortars and complicated preparation process in the prior art

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0020] 1. Preparation of phase change perlite:

[0021] 1. Take 150 grams of paraffin wax at 25°C, add 3 grams of thermoplastic styrene-butadiene rubber and styrene-butadiene thermoplastic elastomer to the paraffin wax, mix evenly, raise the temperature to 90-100°C, stir evenly, and make jelly for 10 minutes.

[0022] 2. Take 100 grams of 2-3mm expanded turpentine rock, put it in a three-necked flask, control the water bath at 90°C, turn on the vacuum, and stir at a low speed. When the temperature of the material in the kettle rises to more than 80° C., inhale the liquid jelly wax obtained in step 1, slowly inhale, start timing after all inhalation, and continue vacuum stirring for 100 min.

[0023] 3. Add 5 grams of sodium dodecylsulfonate to the material obtained in step 2, stir and react in vacuum for 60 minutes, then raise the temperature to 100° C., and react in vacuum for 1 hour.

[0024] 4. Add 30 grams of acidic silica sol to the material obtained in step 3, and stir ...

Embodiment 2

[0030] 1. Preparation of phase change perlite:

[0031] 1. Take 200 grams of paraffin wax at 20°C, add 2.7 grams of thermoplastic styrene-butadiene rubber and styrene-butadiene thermoplastic elastomer to the paraffin wax, mix evenly, raise the temperature to 90-100°C, stir evenly, and make jelly for 10 minutes.

[0032]2. Take 100 grams of 2-3mm expanded turpentine rock, put it in a three-necked flask, control the water bath at 90°C, turn on the vacuum, and stir at a low speed. When the temperature of the material in the kettle rises to more than 80° C., inhale the liquid jelly wax obtained in step 1, slowly inhale, start timing after all inhalation, and continue vacuum stirring for 100 min.

[0033] 3. Add 5 grams of sodium dodecylsulfonate to the material obtained in step 2, stir and react in vacuum for 60 minutes, then raise the temperature to 100° C., and react in vacuum for 1 hour.

[0034] 4. Add 30 grams of acidic silica sol to the material obtained in step 3, and stir...

Embodiment 3

[0040] 1. Preparation of phase change perlite:

[0041] 1. Take 150 grams of paraffin wax at 30°C, add 3.5 grams of thermoplastic styrene-butadiene rubber and styrene-butadiene thermoplastic elastomer to the paraffin wax, mix evenly, raise the temperature to 100-120°C, stir evenly, and make jelly for 10 minutes.

[0042] 2. Take 100 grams of 2-3mm expanded turpentine rock, put it in a three-necked flask, control it at 110°C, turn on the vacuum, and stir at a low speed. When the temperature of the material in the kettle rises to greater than 100° C., inhale the liquid jelly wax obtained in step 1, slowly inhale, start timing after all inhalation, and continue vacuum stirring for 100 min.

[0043] 3. Add 5 grams of sodium dodecylsulfonate to the material obtained in step 2, stir and react in vacuum for 60 minutes, then raise the temperature to 100° C., and react in vacuum for 1 hour.

[0044] 4. Add 30 grams of acidic silica sol to the material obtained in step 3, and stir at a...

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Abstract

The invention discloses jelly-paraffin-containing phase transition energy storage perlite and self-temperature-adjustment phase transition mortar which is a new building material and is applied to self-temperature-adjustment mortar. In the phase transition energy storage perlite, expanded pitchstone and expanded perlite are taken as a carrier for a shell, phase transition paraffin is taken as an energy storage material and exists in a jelly paraffin form, and an inorganic silica-alumina compound layer coats a core. The jelly phase transition perlite is taken as a temperature-adjustment energystorage/releasing material and is mixed with cement, opal shale powder, yellow sand and water at a ratio to prepare self-temperature-adjustment phase transition mortar. Jelly paraffin technology and opal shale powder are adopted to prevent the phenomenon that liquid paraffin exudes in a solid-liquid phase transition process of phase transition paraffin and to overcome the problem that phase transition mortar is complex in preparation technology. The enthalpy value of the self-temperature-adjustment phase transition mortar is more than 500 KJ/m<2>. The mortar is of an A fireproof grade, can beapplied to building interior walls, interior walls and grounds of vegetable greenhouses and livestock pens, and can be applied to fermenting tanks and aquatic product culture.

Description

technical field [0001] The invention belongs to the technical field of building materials, and in particular relates to a phase-change energy-storage perlite containing jelly paraffin and a new building material self-regulating phase-change mortar applied to self-regulating mortar. Background technique [0002] Phase change materials refer to substances that change shape with temperature and can provide latent heat. The process of phase change material changing from solid state to liquid state or from liquid state to solid state is called phase change process. At this time, the phase change material will absorb or release a large amount of latent heat. The phase change material is a new type of composite material with a core-shell structure formed by coating the surface of the particles of the solid-liquid phase change material with a stable film. During the phase change process, the phase change material as the inner core undergoes a solid-liquid phase transition, while th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B20/12C04B28/00
CPCC04B20/12C04B28/00C04B16/04C04B20/1044C04B20/1033C04B20/1066C04B14/185C04B14/068C04B14/06
Inventor 朱伟员秦雪松
Owner SHANGHAI LIULI NANO MATERIAL SCI & TECH
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