Ultraviolet deep-crosslinked expansion flame-retardant polyolefine cable material, and preparation method of insulating or jacket layer thereof

A kind of cable insulation, expansion flame retardant technology, applied in the direction of conductor/cable insulation, cable/conductor manufacturing, insulated conductors, etc., can solve the problems of insufficient cross-linking depth, moisture absorption, easy moisture absorption, etc., and achieve a simple cross-linking process. , The effect of low equipment investment and low product cost

Active Publication Date: 2011-08-24
HEILONGJIANG MINGXIANG TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in actual use, the applicant found that the above-mentioned patent application has the following two defects: one is that no matter whether it is an intumescent phosphorus-nitrogen flame retardant or a metal hydroxide inorganic filler, in addition to seriously deteriorating the polymerization In addition to the mechanical properties and processing properties of the material matrix, the more negative impact is that it seriously hinders the penetration ability of ultraviolet light in polymer materials, so that the bottom layer of thicker samples (such as 1.5mm and above thickness) cannot be fully exchanged. Second, due to the fact that intumescent phosphorus-nitrogen flame retardants are easy to absorb moisture, they often absorb moisture in the environment during use, resulting in poor electrical properties and flame retardant properties of the material. severely degraded performance
Therefore, how to overcome the shortcomings of insufficient crosslinking depth caused by adding intumescent

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] First, the surface modification of the intumescent phosphorus-nitrogen flame retardant in this example was carried out: respectively, APP and PER were stirred at high speed in a high-speed mixer and the temperature was raised to 100°C. First, a part of stearic acid diluted with ethanol was added and stirred for 15 minutes, then the remaining The ethanol-diluted stearic acid in the lower part is stirred and coated for a second time for a few minutes to improve the integrity of the filler surface coating, and finally the surface modified flame retardant is dried for use. Take by weight 80 parts of LLDPE, 8 parts of glycidyl methacrylate grafted polyethylene, 12 parts of maleic anhydride grafted polyethylene, 35 parts of stearic acid modified APP, stearic acid modified PER 10 parts, 2.5 parts of 4,4'-dimethyldiphenyliodonium phosphate, 2 parts of 4-chlorobenzophenone, 1.5 parts of TMPTA, 3000.3 parts of antioxidant, 0.1 part of DLTP, 4 parts of zinc borate, 2 parts of ammo...

Embodiment 2

[0036] Surface modification of the intumescent phosphorus-nitrogen flame retardant in this example: Stir MPP and PER separately in a high-speed mixer and raise the temperature to 120°C, add a part of vinyl silicone oil diluted with ethanol and stir for 15 minutes, and then add the rest The vinyl silicone oil diluted with ethanol is used for secondary coating for a few minutes to improve the integrity of the filler surface coating, and the sample is dried for use. Take by weight 70 parts of LDPE, 10 parts of glycidyl methacrylate grafted EVA, 20 parts of maleic anhydride grafted polyethylene, 30 parts of MPP modified by vinyl silicone oil, 10 parts of modified PER, 10 parts -(4-biphenyl)-2-isopropylthioxanthone-10-sulfonium hexafluorophosphate 2 parts, 4,4'dichlorobenzophenone 2.5 parts, TAIC 3 parts, antioxidant 1010 0.1 parts, 0.5 parts of DTDTP, 3 parts of phosphite, 1 part of molybdenum trioxide, 2.5 parts of magnesium stearate; each raw material component is mixed evenly, ...

Embodiment 3

[0040] Surface modification of the intumescent phosphorus-nitrogen flame retardant in this example: stir the APP and the macromolecular triazine compound in a high-speed mixer at high speed to 140°C, add a part of octadecylamine diluted with ethanol and stir for 15 minutes, and then Add the remaining part of ethanol-diluted octadecylamine for secondary coating for a few minutes to improve the integrity of the filler surface coating, and take samples and dry them for use. Take by weight 85 parts of EVA, 10 parts of glycidyl methacrylate grafted EVA, 5 parts of amide grafted ethylene vinyl acetate copolymers, 25 parts of octadecylamine-modified APP, octadecylamine-modified large 10 parts of molecular triazine compounds, 2.0 parts of ferrocene hexafluorophosphate, 4 parts of dodecyl benzophenone, 2.0 parts of TAC, 10100.1 parts of antioxidant, 0.2 parts of DLTP, 2.5 parts of silicotungstic acid, three 3 parts of dimolybdenum oxide, 1.5 parts of hydroxy silicone oil; each raw mate...

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Abstract

The invention relates to an ultraviolet deep-crosslinked expansion phosphorus-nitrogen flame-retardant polyolefine cable material, and a preparation method of an insulating or jacket layer thereof. Polyethylene or graft-modified polyethylene and/or ethylene-vinyl acetate or graft-modified copolymer thereof are used as base materials, surface-modified expansion phosphorus-nitrogen halogen-free flame retardant, cation photoinitiator, free-radical photoinitiator, polyfunctional group crosslinking agent and composite antioxidant are added, and flame-retardant synergist, synergistic smoke suppressor and processing assistant are matched to obtain the ultraviolet deep-crosslinked expansion phosphorus-nitrogen flame-retardant polyolefine cable material. The preparation method comprises the following steps: proportionally and evenly mixing the materials to obtain granules, extruding to obtain an optical crosslinked expansion flame-retardant wire cable insulating layer or jacket layer, and radiating by a specific ultraviolet source for several seconds to obtain the deep-crosslinked insulating layer or jacket layer. The new material and new technology have the advantages of low investment required for crosslinking equipment, simple technique, energy saving, environmental protection, high production efficiency, low cost and good product quality, and can be widely used for manufacturing rail transportation cables, various mechanical wires, indoor assembly wires and the like.

Description

technical field [0001] The invention belongs to the technical field of preparation of cross-linked flame-retardant polyolefin wires and cables, and in particular relates to a method for preparing flame-retardant polyolefin cable material and its insulating layer or sheath layer through ultraviolet light deep cross-linking expansion (type phosphorus-nitrogen type). Background technique [0002] Cross-linked polyolefin materials have the characteristics of excellent electrical properties, high long-term use temperature, corrosion resistance, good pressure and heat resistance, and high mechanical strength. They are increasingly used in the manufacture of insulation or sheath layers for cross-linked wires and cables. However, the main disadvantage of cross-linked polyolefin materials is that they are easy to catch fire and cause fires. At present, the most commonly used halogen-containing flame-retardant polyolefin materials will release a large amount of smoke and corrosive hyd...

Claims

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Application Information

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IPC IPC(8): C08L23/06C08L51/06C08L23/08C08L31/04C08K13/06C08K9/06C08K9/04C08K7/22C08K3/32C08K5/053C08K5/3492C08K5/521C08J3/28C08J3/24H01B7/02H01B7/295H01B13/00H01B13/14H01B13/24
Inventor 瞿保钧鲍文波叶磊高广刚瞿欣刘红施文芳刘岩吴强华季洋
Owner HEILONGJIANG MINGXIANG TECH
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