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Glass insulator material

A glass insulator, volume resistivity technology, applied in inorganic insulators, quartz/glass/glass enamel, metal oxides, etc., can solve the problem of difficult to meet the characteristics of high-voltage insulators, poor insulation performance of high alkali glass, low volume resistivity, etc. To achieve the effect of large-scale popularization and application, excellent sealing performance and processing performance, and high volume resistivity

Inactive Publication Date: 2013-09-25
佛山市昌越玻璃有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the insulation performance of high-alkali glass is poor, mainly manifested in low volume resistivity and high dielectric loss, which makes it difficult to meet the characteristic requirements of high-voltage insulators

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0011] Using waste CRT screen glass as raw material, adjust the mass percentage of each component in waste CRT screen glass to obtain 65% SiO 2 , 3.1﹪PbO, 2﹪Al 2 o 3 , 6﹪MgO, 12﹪Na 2 O, 8﹪K 2 O, 2﹪BaO, 0.4﹪Li 2 O, 1.5% SrO glass insulator material.

[0012] Volume resistivity of the glass insulator material prepared in Example 1 at 18°C =5.5×10 14 , volume resistivity at 90°C =2.3×10 10 , Dielectric loss D=1.38% at 18°C, and D=1.97% at 40°C.

Embodiment 2

[0014] Using waste CRT cone glass as raw material, adjust the mass percentage of each component in the waste CRT cone glass to obtain 72% SiO 2 , 4﹪PbO, 8﹪Al 2 o 3 , 2﹪MgO, 6﹪Na 2 O, 7﹪K 2 O, 0.5% BaO, 0.5% SrO glass insulator materials.

[0015] Volume resistivity of the glass insulator material prepared in Example 2 at 18°C =5.7×10 14 Ω·cm, volume resistivity at 90°C =2.5×10 10 Ω·cm, dielectric loss D=1.35% at 18°C, and D=1.94% at 40°C.

Embodiment 3

[0017] Using waste CRT screen glass as raw material, adjust the mass percentage of each component in waste CRT screen glass to obtain 69% SiO 2 , 0.05﹪PbO, 7.5﹪Al 2 o 3 , 6﹪MgO, 11﹪Na 2 O, 3﹪K 2 O, 1.8﹪BaO, 0.35﹪Li 2 O, 1.3% SrO glass insulator material.

[0018] Volume resistivity of the glass insulator material prepared in Example 3 at 18°C =5.45×10 14 Ω·cm, volume resistivity at 90°C =2.37×10 10 Ω·cm, dielectric loss D=1.33% at 18°C, and D=1.92% at 40°C.

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Abstract

The invention relates to a glass insulator material. An existing insulator is poor in insulation performance of high-alkali glass. The glass insulator material comprises components by weight of 65-72% of SiO2, 0.05-4% of PbO, 2-8% of Al2O3, 2-6% of MgO, 6-12% of Na2O, 3-8% of K2O, 0.5-2% of BaO, 0-0.4% of Li2O and 0.5-1.5% of SrO. When the glass insulator material is 18 DEG C, the volume resistivity is larger than 5*1014. When the glass insulator material is 90 DEG C, the volume resistivity is larger than 2*1010. When the glass insulator material is 18 DEG C, the dielectric loss D is smaller than 1.4%. When the glass insulator material is 40 DEG C, the dielectric loss is smaller than 2.0%. The glass insulator material uses waste leaded glass as main raw materials, changes waste into wealth, and achieves resource utilization of leaded glass. Furthermore, the glass insulator material is high in volume resistivity, low in dielectric loss and excellent in sealing performance and processing performance.

Description

technical field [0001] The invention relates to a glass insulator material, in particular to an insulator glass piece prepared from waste lead-containing glass as a raw material. Background technique [0002] An insulator is a device mainly used to support and insulate overhead transmission line conductors. The insulators currently used mainly include porcelain insulators, glass insulators and organic composite insulators. The manufacturing process of traditional porcelain insulators is complicated, consumes a lot of energy, the product is bulky and fragile, and its tensile and bending strength is very poor. In addition, the porcelain surface is hydrophilic, so its ability to resist pollution flashover is poor. Organic composite insulators are light in weight, good in anti-flash pollution performance, and high in strength. The disadvantage is that the production cost is high. Compared with ceramic and organic composite insulators, glass insulators have extremely obvious ad...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01B3/08H01B3/10
Inventor 姚志通黄进刚
Owner 佛山市昌越玻璃有限公司
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