Mildew-proof oil-proof communication optical fiber material
A communication optical fiber and oil-proof technology, which is applied in the field of optical fiber sheath materials, can solve the problems of difficult interface formation and bonding, poor compatibility, mechanical properties, waterproof performance and insulation performance degradation, etc., to reduce surface energy and reduce filling The effect of excellent anti-mildew and anti-oil properties
Inactive Publication Date: 2015-11-18
安徽电信器材贸易工业有限责任公司
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Problems solved by technology
[0003] Inorganic halogen-free flame retardants have strong polarity and hydrophilicity, while polyolefins are non-polar materials, the compatibility between the two is poor, and it is difficult to form a good bond and bond at the interface, especially magnesium hydroxide Magnesium hydroxide has excellent flame retardancy, smoke suppression, anti-dripping, anti-acid and other functions, and has been widely used. However, magnesium hydroxide has strong polarity, and its thermal expansion coefficient is different from that of resin. When it is processed and molded, it will expand with heat and contract with cold. The phase interface forms fine cracks, which will lead to the decline of the mechanical performance, waterproof performance and insulation performance of the material. Therefore, the surface modification of magnesium hydroxide must be carried out to make magnesium hydroxide have better comprehensive performance in polyolefin. It has good fluidity at high temperature and high strength and toughness at service temperature, and does not change the impact resistance of polyolefin profiles
Method used
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Experimental program
Comparison scheme
Effect test
Embodiment Construction
[0013] A mildew-proof and oil-proof communication optical fiber material, prepared from the following raw materials in parts by weight (kg): low-density polyethylene 50, EVA resin 13, nylon 69, magnesium hydroxide 14, sodium methylene bis-naphthalene sulfonate 0.6 , titanate coupling agent 1021.3, organosilicon 5, organic montmorillonite 3, vinyl acetate 2, wollastonite powder 2, waste glass powder 3, stearamide 4, antioxidant 10100.4, deionized water in proper amount;
[0014] The mildew-proof and oil-proof communication optical fiber material is prepared by the following specific steps:
[0015] (1) Dried magnesium hydroxide and mixed colloid mill with sodium methylene bis-naphthalene sulfonate for 10 minutes, then diluted titanate coupling agent 102 with an appropriate amount of ethanol, and sprayed the treated magnesium hydroxide powder Stir in a low-speed kneader at room temperature for 20 minutes, mix evenly and raise the temperature to 70°C, slowly add organic silicon a...
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The invention discloses a mildew-proof oil-proof communication optical fiber material prepared from the following raw materials in parts by weight: 50-55 parts of low-density polyethylene, 13-15 parts of EVA resin, 9-12 parts of nylon 6, 14-16 parts of magnesium hydroxide, 0.6-0.8 part of sodium methylene bis-naphthalene sulfonate, 1.3-2 parts of a titanate coupling agent 102, 5-8 parts of organosilicon, 3-5 parts of organic montmorillonite, 2-4 parts of vinyl acetate, 2-3 parts of a wollastonite powder, 3-4 parts of a waste glass powder, 4-5 parts of stearamide, 0.4-0.6 part of an antioxidant 1010, and a right amount of deionized water. The optical fiber material has the advantages of excellent mildew-proof oil-proof performance, high strength, good comprehensive performance and long service life.
Description
technical field [0001] The invention relates to the technical field of optical fiber sheath materials, in particular to a mildew-proof and oil-proof communication optical fiber material and a preparation method thereof. Background technique [0002] With the rapid development of the data communication industry, optical fiber is being widely used as the carrier of data transmission. The laying forms of optical fiber are buried and overhead, and with the transformation of urban network lines, most of them have been transferred underground. In order to prevent underground optical fibers and optical cables from being bitten or corroded by insects, sheath materials for optical fibers and optical cables have emerged as the times require. At present, polyolefin is mainly used as the sheath material of optical fiber and optical cable, which has the characteristics of light weight, high bending strength, small friction coefficient, good sealing performance, and corrosion resistance....
Claims
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Patent Timeline
Login to View More IPC IPC(8): C08L77/00C08L23/08C08L23/06C08K13/06C08K9/06C08K9/04C08K5/134C08K3/40C08K3/34C08K3/22
CPCC08L77/00C08L2201/02C08L2203/202C08L2205/02C08L2205/03C08L2207/066
Inventor 陆军余文辉陈礼晨
Owner 安徽电信器材贸易工业有限责任公司