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A continuous fiber reinforced thermoplastic polymer tempering panel

A technology of reinforced thermoplastic and continuous fiber, which is applied in the field of construction or decorative boards. It can solve the problems of weak bonding, easy corrosion and rust, and affecting strength, so as to improve the temperature adjustment effect, facilitate coloring, and improve strength and bearing capacity. Effect

Active Publication Date: 2016-02-24
BEIJING UNIV OF CHEM TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, due to the use of metal or stone panels, the bonding between the panel and the honeycomb structure is not good, the bond is not firm, and the environmental protection is poor, and there are also metal materials that are easily corroded and rusted in a humid environment with large temperature differences, which affects its strength. and service life issues

Method used

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  • A continuous fiber reinforced thermoplastic polymer tempering panel
  • A continuous fiber reinforced thermoplastic polymer tempering panel

Examples

Experimental program
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Effect test

Embodiment 1

[0025] The composite materials used include glass fiber, polypropylene, graphite and calcium carbonate, among which, based on 100 parts by weight of thermoplastic polymer and modified thermally conductive filler, polypropylene is 85 parts by weight, graphite is 10 parts by weight, and calcium carbonate is 5 parts by weight. . Polypropylene, graphite, and calcium carbonate are blended and plasticized by an extruder and then mixed with glass fiber by a double-sided coating method to prepare continuous fiber reinforced thermoplastic polymer composite sheet. The thickness of the continuous fiber reinforced thermoplastic polypropylene composite sheet The honeycomb core layer is prepared from the continuous fiber reinforced thermoplastic polypropylene composite material sheet prepared by molding and bonding, and the thickness of the honeycomb core layer is 5mm; the phase change energy storage material is selected as the phase change energy storage material. The change point is 21°C. ...

Embodiment 2

[0029] The composite materials used include carbon fiber, polyamide, aluminum nitride and alumina, wherein, based on 100 parts by weight of thermoplastic polymer and modified thermally conductive filler, polyamide is 80 parts by weight, aluminum nitride is 10 parts by weight, and alumina is 10 parts by weight. Polyamide, aluminum nitride and alumina are blended and plasticized by an extruder and then mixed with carbon fiber by double-sided coating method to prepare continuous fiber reinforced thermoplastic polymer composite sheet, continuous fiber reinforced thermoplastic polyamide composite sheet The thickness of the honeycomb core layer is 0.6mm; the honeycomb core layer is prepared by rolling and bonding the prepared continuous fiber reinforced thermoplastic polyamide composite material sheet, and the thickness of the honeycomb core layer is 10mm; the phase change energy storage material uses composite phase change energy storage The material has a phase transition point of ...

Embodiment 3

[0034] The composite material used includes aramid fiber, polycarbonate, silicon nitride and metal powder, among which, based on 100 parts by weight of thermoplastic polymer and modified thermally conductive filler, 90 parts by weight of polycarbonate and 5 parts by weight of silicon nitride , The metal powder is 5 parts by weight. Polycarbonate, silicon nitride and metal powder are blended and plasticized by an extruder and then mixed with aramid fiber by double-sided coating method to prepare continuous fiber reinforced thermoplastic polycarbonate composite sheet, continuous fiber reinforced thermoplastic polycarbonate The thickness of the composite material sheet is 1.0mm; the honeycomb core layer is prepared by rolling and bonding the prepared continuous fiber reinforced thermoplastic polycarbonate composite material sheet, and the thickness of the honeycomb core layer is 20mm; phase change energy storage material The phase change energy storage material is selected, and th...

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Abstract

A continuous-fiber reinforced thermoplastic polymer temperature-adjusting plate comprises a surface plate, a bottom plate, a honeycomb core layer and a phase-change energy-storage material packed in the honeycomb core layer. The surface plate, the bottom plate and the honeycomb core layer are prepared from a sheet of a continuous-fiber reinforced thermoplastic polymer composite material filled with a modified heat-conduction filler, the honeycomb-core-layer phase-change energy-storage material is packed in multiple mutually-independent chambers in the honeycomb core layer, and the surface plate and the bottom plate are respectively combined with the upper surface and the lower surface of the honeycomb core layer through heat fusion. By blending a high-heat-conductivity substance with the polymer, the high-heat-conductivity continuous-fiber reinforced thermoplastic polymer plate, which is prepared by employing a double-face film coating method, has high specific modulus and specific strength. The honeycomb core layer employs a material same to that of the surface plate, and the honeycomb core layer and the surface plate are firmly bonded through fusion. Honeycomb holes are filled with the phase-change material, the addition amount is large and the problem that the phase-change material precipitates is effectively avoided. The continuous-fiber reinforced thermoplastic polymer temperature-adjusting plate has an expanded application field and is especially applicable to decoration of indoor decoration furred ceilings and wall surfaces.

Description

Technical field [0001] The invention relates to a building or decoration board with constant temperature, energy storage and automatic temperature adjustment functions. Specifically disclosed is a continuous fiber reinforced thermoplastic polymer temperature regulating board. Background technique [0002] Building a resource-saving and environment-friendly society is the guiding principle for the development of the country today. In the engineering field, phase change plates with self-adjustable temperature are used, which can not only maintain indoor temperature, but also reduce greenhouse gas emissions and achieve the purpose of energy saving and emission reduction. However, the existing phase change energy storage plates use metal plates to sandwich the microcapsule phase change material, which has key problems such as easy leakage, easy flow, and poor decorative effect during cutting. [0003] Generally, phase change materials are prepared by blending modification methods, th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B32B3/12B32B27/06B32B9/04B32B33/00B32B37/10B32B37/06
CPCB32B3/12B32B9/04B32B27/06B32B33/00B32B37/06B32B37/10
Inventor 贾明印薛平周翔韩风雨
Owner BEIJING UNIV OF CHEM TECH
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