Preparation method of highly-doped radiation refrigeration composite fiber and preparation method of highly-doped radiation refrigeration composite fiber fabrics

A radiation cooling and composite fiber technology, applied in the direction of fabrics, fiber chemical characteristics, conjugated synthetic polymer artificial filaments, etc., can solve the problems of limited radiation cooling effect, inability to use human skin to cool down, and high cost, and achieve excellent radiation cooling Performance and mechanical properties, excellent day and night radiation cooling performance, high mechanical properties and flexible effects

Pending Publication Date: 2020-07-28
HUAZHONG UNIV OF SCI & TECH
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AI Technical Summary

Problems solved by technology

However, this method makes the mass fraction of functional fillers doped inside the fiber low, which cannot effectively block the input of solar radiation, so the radiative cooling effect is limited.
[0011] To sum up, most of the existing radiative refrigeration materials are in the state of coating or film, which cannot be used for cooling human skin because of insufficient air permeability and comfort; methods such as electrospinning are complicated in process and high in cost; The content of foreign particles is low, and the radiation cooling effect is limited
Therefore, there is currently a lack of a technology for preparing radiation cooling fibers that can be doped with inorganic micro-nano particles at a high concentration, to achieve controllable fiber shape structure and concentration distribution, and to achieve excellent radiation cooling performance while having good mechanical properties and Prepared textiles suitable for cooling the human body

Method used

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  • Preparation method of highly-doped radiation refrigeration composite fiber and preparation method of highly-doped radiation refrigeration composite fiber fabrics
  • Preparation method of highly-doped radiation refrigeration composite fiber and preparation method of highly-doped radiation refrigeration composite fiber fabrics
  • Preparation method of highly-doped radiation refrigeration composite fiber and preparation method of highly-doped radiation refrigeration composite fiber fabrics

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preparation example Construction

[0043] The preparation steps of the radiant refrigeration conforming material fiber are as follows:

[0044] 101. Prepare a radiative refrigeration composite material mixed with a polymer base material and inorganic micro-nano particles;

[0045] 102. Prepare a fiber preform comprising the radiative refrigeration composite material;

[0046] 103. Thermally drawing the fiber preform to obtain a radiation cooling composite fiber includes thermally drawing the fiber preform on a wire drawing device to obtain a radiation cooling composite fiber with uniform wire diameter.

[0047] Preferably, the preparation of the radiative refrigeration composite material mixed with the polymer base material and the inorganic micro-nano particles includes uniformly compounding the inorganic micro-nano particles and the polymer base material through chemical dissolution mixing and / or physical blending steps.

[0048] Specifically, both the inorganic micro-nano particles and the polymer can be di...

Embodiment approach

[0050] The preparation of the fiber preform rod containing the radiation cooling composite material includes processing the radiation cooling composite material to obtain a fiber preform rod of the radiation cooling composite material; the fiber preform rods in this structure are all obtained by processing the radiation cooling composite material , Therefore, the obtained fiber preform rod and the subsequently drawn fiber are made of polymer base material and inorganic micro-nano particle material distributed therein.

[0051] On the other hand, the preparation of the fiber preform containing the radiation cooling composite material also includes processing and combining the radiation cooling composite material with other polymer materials to form a fiber preform rod of composite structure.

[0052] Preferably, the other polymer material can be a pure thermoplastic polymer material, or a polymer material doped with inorganic micro-nano particles. Other polymer materials can be...

Embodiment 1

[0070] In this embodiment, the highly doped radiative cooling composite material fibers and fabrics are provided, which have excellent radiative cooling performance and are suitable for radiative cooling of the surface of human skin.

[0071] Wherein, the polymer base material of the radiation refrigeration fiber is a composite material (F-PMMA) of fluororesin and polymethyl methacrylate, and the doped inorganic micro-nano particles are TiO 2 , with an average particle size of about 600nm, accounting for 5% of the total volume of the radiation refrigeration composite material.

[0072] The method for preparing highly doped radiation refrigeration composite fiber and fabric provided in this embodiment includes: preparation of radiation refrigeration composite material, preparation of fiber preform, hot drawing of fiber preform into radiation refrigeration composite fiber, and radiant refrigeration Refrigeration composite fibers are made into radiative refrigeration composite fa...

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Abstract

The invention relates to a preparation method of a highly-doped radiation refrigeration composite fiber and a preparation method of highly-doped radiation refrigeration composite fiber fabrics. The preparation method of the highly-doped radiation refrigeration composite fiber comprises the steps that radiation refrigeration composite materials are prepared, and the radiation refrigeration composite materials comprise polymer substrate materials and inorganic micro-nano particles; fiber prefabricated rods containing the radiation refrigeration composite materials are prepared; and the fiber prefabricated rods are subjected to hot drawing to prepare the radiation refrigeration composite fiber. By using the hot drawing method, the radiation refrigeration composite fiber and the fabrics dopedwith the micro-nano particles with high concentration can be prepared, by regulating and controlling the macroscopic structures and shapes of the fiber prefabricated rods, the composite fiber with multiple complex structures can be prepared, and radial and angular random concentration distribution can be realized; and the fiber has excellent radiation refrigeration performance and mechanical performance, the preparation method is simple, continuous large-scale preparation can be carried out, the preparation method is suitable for being used in an industrial method, and meanwhile, different materials can be designed according to own requirements.

Description

technical field [0001] The invention relates to the field of radiation refrigeration, in particular to a preparation method of radiation refrigeration composite fiber and its fabric. Background technique [0002] Energy promotes the development and progress of civilization, and the modern life we ​​enjoy is all based on energy consumption. However, high energy consumption will cause excessive emissions of greenhouse gases, leading to global warming and disrupting the climate balance. Global warming not only brings extreme high temperature weather that threatens human health, but also limits the development of industrial labor and productivity. According to statistics from the US Department of Energy and the National Energy Administration, building space heating and cooling consumes 15% of the world's electricity and produces 10% of the world's greenhouse gas emissions, and is a major part of residential and commercial energy consumption. With the intensification of the "gr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): D01F1/10D01F8/10D01D5/12D03D15/00D04B1/16D04B21/00D03D15/292D03D15/50
CPCD01F1/10D01F1/106D01F8/10D01D5/12D03D15/00D04B1/16D04B21/00
Inventor 陶光明曾少宁马耀光胡润吴嘉威向远卓
Owner HUAZHONG UNIV OF SCI & TECH
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