Far-infrared warm-keeping flame-retardant functional wadding and preparation method thereof

A technology of far-infrared and far-infrared materials, applied in coatings, non-woven fabrics, textiles, and papermaking, can solve the problem of inability to have both flame retardancy and far-infrared properties, poor thermal performance, and flakes that cannot simultaneously possess warmth, Flame retardant and far-infrared emission functions and other issues

Active Publication Date: 2018-06-29
THE QUARTERMASTER RES INST OF THE GENERAL LOGISTICS DEPT OF THE CPLA +3
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In recent years, there have been more and more studies on the preparation of thermal insulation flakes by using various thermal insulation fibers. The commonly used thermal insulation fibers include hollow polyester fibers, non-metallic modified heat storage and thermal insulation fibers, and composite elastic fibers. There are also many researches, such as increasing flame retardancy, far-infrared properties, etc., but the effects cannot be combined, and there are many problems:
However, with mechanical action such as repeated compression during use,

Method used

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  • Far-infrared warm-keeping flame-retardant functional wadding and preparation method thereof
  • Far-infrared warm-keeping flame-retardant functional wadding and preparation method thereof
  • Far-infrared warm-keeping flame-retardant functional wadding and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0073] Example 1. Preparation of far-infrared thermal insulation and flame-retardant functional flakes

[0074] 1. Preparation method

[0075] according to figure 2 The flow chart shown in the preparation of far-infrared heat preservation and flame-retardant functional wadding, the steps are as follows:

[0076] 1. Preparation of thermal insulation layer

[0077] Prepare the thermal insulation layer according to the following steps: weighing raw materials → uniform mixing of ingredients → coarse opening and loosening and mixing → fine opening and loosening and mixing → carding → laying net

[0078] Wherein, in the step of weighing the raw materials and the step of uniformly mixing and mixing the materials, the raw materials in the following parts by weight are mixed with a plucking machine to form a sufficient mixture.

[0079]

[0080] Among them, in the carding step and the web laying step, the air-pressure carding device is used to fully card the mixed material, and ...

Embodiment 2

[0103] Example 2, preparation of far-infrared thermal insulation and flame-retardant functional flakes

[0104] According to the steps in Example 1, the far-infrared thermal insulation and flame-retardant functional flakes were prepared, and the modifications were as follows:

[0105] 1. Modify the weight ratio of each fiber in the thermal insulation layer and the skeleton layer to the following ratio:

[0106] Warm Layer Ratio:

[0107]

[0108] Skeleton layer ratio:

[0109]

[0110] 2. The far-infrared heat preservation and flame retardant flakes are preferably laminated with 10 layers of composite heat preservation layers.

[0111] Particularly, in this embodiment, the grammage of the thermal insulation layer is 8g / ㎡.

[0112] The weight of the skeleton layer is 5.5g / ㎡.

[0113] The weight of the far-infrared layer is 0.2g / ㎡.

[0114] The weight of the composite thermal insulation layer is 13.5g / ㎡.

[0115] The weight of the far infrared flame retardant layer is ...

Embodiment 3

[0121] Example 3, preparation of far-infrared heat preservation and flame-retardant functional flakes

[0122] According to the steps in Example 1, the far-infrared thermal insulation and flame-retardant functional flakes were prepared, and the modifications were as follows:

[0123] 1. Modify the weight ratio of each fiber in the thermal insulation layer and the skeleton layer to the following ratio:

[0124] Warm Layer Ratio:

[0125]

[0126] Skeleton layer ratio:

[0127]

[0128] 2. The far-infrared heat preservation and flame retardant flakes are preferably laminated with 8 layers of composite heat preservation layers.

[0129] Particularly, in this embodiment, the grammage of the thermal insulation layer is 7g / ㎡.

[0130] The weight of the skeleton layer is 5g / ㎡.

[0131] Far-infrared layer weight 0.3g / m 2 .

[0132] The weight of the composite thermal insulation layer is 12g / ㎡.

[0133] The weight of the far infrared flame retardant layer is 4g / ㎡.

[0134...

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Abstract

The invention discloses far-infrared warm-keeping flame-retardant functional wadding and a preparation method thereof. The far-infrared warm-keeping flame-retardant functional wadding comprises a middle layer and far-infrared flame-retardant layers and is characterized in that the middle layer is formed by stacking multiple layers of composite warm-keeping layers, and the far-infrared flame-retardant layers are composited to the upper surface and the lower surface of the middle layer; each composite warm-keeping layer comprises a far-infrared layer, a warm-keeping layer and a framework layer which are sequentially stacked, and the far-infrared layer is made of far-infrared materials; the far-infrared flame-retardant layers are made of far-infrared materials and flame retardants. Experimentcomparison and analysis discovers that the thermal resistance of the far-infrared warm-keeping flame-retardant functional wadding is increased by 25-35% as compared with that of existing far-infraredwarm-keeping wadding, the far-infrared emission rate and far-infrared irradiation temperature rise of the far-infrared warm-keeping flame-retardant functional wadding are synchronously increased by about 30-35% as compared with those of the existing far-infrared warm-keeping wadding, the thermal resistance of the far-infrared warm-keeping flame-retardant functional wadding is increased by 28-38%as compared with that of existing flame-retardant warm-keeping wadding, and the after flame time of the far-infrared warm-keeping flame-retardant functional wadding is shortened by 20-28% as comparedwith that of the existing flame-retardant warm-keeping wadding. The far-infrared warm-keeping flame-retardant functional wadding is high in warm-keeping performance and capable of achieving flame retardance, far-infrared temperature rise and the like.

Description

technical field [0001] The invention relates to a far-infrared heat-preserving and flame-retardant functional wadding and a preparation method thereof, belonging to the technical field of warming wadding materials. Background technique [0002] In recent years, there have been more and more studies on the preparation of thermal insulation flakes by using various thermal insulation fibers. The commonly used thermal insulation fibers include hollow polyester fibers, non-metallic modified heat storage and thermal insulation fibers, and composite elastic fibers. There are also many researches, such as increasing flame retardancy, far-infrared properties, etc., but the effects cannot be combined, and there are many problems: [0003] 1. The existing thermal insulation flakes use hollow fiber as the main thermal insulation fiber, which can contain a large amount of still air, bringing light elasticity, good air permeability and comfortable thermal insulation effect to the fabric, ...

Claims

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Application Information

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IPC IPC(8): D04H1/02D04H1/4374D04H1/435D04H1/4382D04H1/541D04H1/587D04H1/593D04H1/64D04H1/70C09D133/00C09D5/18
CPCC08K2003/323C09D5/18C09D133/00D04H1/02D04H1/435D04H1/4374D04H1/4382D04H1/541D04H1/587D04H1/593D04H1/64D04H1/70C08L79/02C08K3/32C08K5/521
Inventor 任鹏飞马天邹振高李伟萍孙友林杨烽龙知州
Owner THE QUARTERMASTER RES INST OF THE GENERAL LOGISTICS DEPT OF THE CPLA
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