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Efficient halogen-free intumescent flame-retardant glass fiber reinforced polypropylene material and preparation method thereof

A polypropylene material and an intumescent technology, applied in the field of polypropylene materials, can solve the problems of easy moisture absorption of red phosphorus, reduced mechanical properties, and reduced comprehensive polymer properties, and achieve outstanding water resistance and mechanical properties, and the performance can be used for a long time. , the effect of expanding the scope of use

Inactive Publication Date: 2020-04-07
重庆科聚孚新材料有限责任公司 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The combination of metal hydroxide and resin is poor, and the addition amount is high, which leads to the reduction of the comprehensive performance of the polymer, which is not conducive to the processing of the polymer; red phosphorus is easy to absorb moisture, oxidize, and emit highly toxic gas, and the dust is easy to explode, showing dark red , so the use is greatly restricted; and the cost of silicone-based flame retardants is relatively high
Application No. 201110387491.6 discloses a halogen-free intumescent flame-retardant glass fiber reinforced polypropylene material and its preparation method. Although the polypropylene material has good flame retardancy and excellent mechanical properties, it does not contain toxic halogens during use. Gas release, but the mechanical properties of the polypropylene material are not high enough, the addition of its halogen-free intumescent flame retardant has a certain impact on the mechanical properties of the polypropylene material, that is to say, to improve the flame retardant effect, it is necessary to increase the non-halogenated flame retardant The amount of halogen-free intumescent flame retardant, and the amount of halogen-free intumescent flame retardant will affect the mechanical properties of polypropylene material, resulting in a decrease in mechanical properties, and the water resistance of the polypropylene material is not ideal
In addition, since polypropylene is a crystalline material, its molding shrinkage rate is relatively large (1.5% to 2.5%)
Its application is limited in some precision parts that require low shrinkage of the material and no defects in the appearance of the molding.
Although the shrinkage of polypropylene can be reduced by glass fiber and mineral filling, usually due to the anisotropy of glass fiber and mineral materials in the horizontal direction of flow and the vertical direction of flow, the molding shrinkage of polypropylene materials in the horizontal direction of flow (δ1 value ) and the molding shrinkage rate (δ2 value) in the vertical direction still have a large difference (>0.5), so that the modified polypropylene material cannot shrink at the same time due to the large gap between δ1 and δ2 values. Therefore, , the polypropylene material with application number 201110387491.6 still has the problem of unsatisfactory warpage deformation rate, which leads to unsatisfactory processing and forming performance

Method used

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  • Efficient halogen-free intumescent flame-retardant glass fiber reinforced polypropylene material and preparation method thereof

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preparation example Construction

[0027] The preparation method of the high-efficiency halogen-free intumescent flame-retardant glass fiber reinforced polypropylene material of the present invention comprises the following steps:

[0028] a. Mix the coated ammonium polyphosphate, melamine and its derivatives, and the halogen-free flame-retardant char-forming agent at a temperature of 90-130°C in a low-speed (40-60 rpm) mixer 10-30 minutes, then spray 0.05-0.5% silane coupling agent for heat treatment to obtain a halogen-free intumescent flame-retardant mixture; the halogen-free intumescent flame-retardant mixture is surface-treated, and the addition amount is small, which has little effect on mechanical properties . The flame retardant accelerates the esterification reaction between the carbon source itself and the acid source through the carbon-forming synergist to improve the flame retardant efficiency, and catalyzes the main flame retardant to form a denser carbon layer, thereby reducing the intumescent fla...

Embodiment 1

[0033] The high-efficiency halogen-free intumescent flame-retardant glass fiber-reinforced polypropylene material provided in this example includes the following components by weight: 42.2 parts of polypropylene (PP K7926), 5 parts of melamine pyrophosphate, piperazine polyphosphate 15 parts, 1 part of zinc borate, 30 parts of surface-treated glass fiber, 0.1 part of coupling agent, 2 parts of maleic anhydride grafted polypropylene KT-1, 4 parts of POE 8200, 0.2 part of PE wax, 0.5 part of antioxidant ;

[0034] In this embodiment, the surface-treated glass fiber is an alkali-free long glass fiber after spraying a silane coupling agent heat-treated at a weight percentage of 0.2% at 110°C; the antioxidant is antioxidant 168 and Antioxidant 1010 is an antioxidant compounded at a weight ratio of 2:3.

[0035] The preparation method comprises the following steps:

[0036] a. After mixing melamine pyrophosphate and piperazine polyphosphate, mix the materials for 20 minutes at a t...

Embodiment 2

[0040] The high-efficiency halogen-free intumescent flame-retardant glass fiber-reinforced polypropylene material provided in this embodiment includes the following components by weight: 42.2 parts of polypropylene (PP K7926), 5 parts of coated ammonium polyphosphate, melamine coke 5 parts of phosphate, 10 parts of piperazine polyphosphate, 1 part of zinc borate, 30 parts of surface treated glass fiber, 0.1 part of coupling agent, 2 parts of maleic anhydride grafted polypropylene KT-1, 4 parts of POE 8200, PE 0.2 part of wax, 0.5 part of antioxidant; the rest are the same.

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Abstract

The invention discloses an efficient halogen-free intumescent flame-retardant glass fiber reinforced polypropylene material. The raw materials comprise the following components in percentage by weight: 39-75 parts of polypropylene, 0-10 parts of coated ammonium polyphosphate, 1-15 parts of melamine and derivatives thereof, 1-15 parts of a halogen-free flame-retardant charring agent, 0-5 parts of aflame-retardant synergist, 5-30 parts of glass fibers subjected to surface treatment, 0.03-3 parts of a coupling agent, 0.5-8 parts of a compatilizer, 0-20 parts of a toughening agent, 0.1-1 part ofa lubricant and 0.01-4 parts of an antioxidant. The polypropylene material has the advantages of better flame retardancy, more outstanding water resistance and mechanical properties, the realization of the balance among processability, rigidity and toughness, lower dimensional shrinkage rate, the realization of very good rigidity and toughness balance and low shrinkage rate, no warping of a product, no floating fibers on a surface, and the enlargement of the application range of the polypropylene material.

Description

technical field [0001] The invention relates to a polypropylene material, in particular to a high-efficiency halogen-free expansion type flame-retardant glass fiber reinforced polypropylene material and a preparation method thereof. Background technique [0002] As a general polymer material, polypropylene (PP) has excellent mechanical properties, electrical insulation properties, chemical corrosion resistance, heat resistance and recyclability, so it is widely used in electronics, electrical appliances, automobiles, ships, Construction, packaging and other fields. In practical applications, due to the large molding shrinkage of PP products, it is difficult to guarantee the dimensional stability, the sensitivity to the notch is high, and the impact resistance is low. The use of glass fiber (GF) reinforcement is an important measure to improve the mechanical properties, heat resistance and dimensional stability of PP. At the same time, due to the low limiting oxygen index o...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08L23/12C08L23/14C08K13/06C08K9/06C08K7/14C08K9/10C08K3/32C08J5/04
CPCC08J5/043C08J2323/12C08J2323/14C08K7/14C08K9/06C08K9/10C08K13/06C08K2003/323
Inventor 胡志钟志强刘罡龚小弟梅青苏俊业刘小林叶淑英肖利群吕强周雷陈健李福顺
Owner 重庆科聚孚新材料有限责任公司
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