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Suspension Porcelain Insulators
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Butterfly Type Porcelain Insulators
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Glass Insulators
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Glass Insulators
The device used to support conductors and insulate them is called an insulator. This insulator device is made of glass and is called a glass insulator; the most widely used in power lines is toughened glass insulators.
Suspension Porcelain Insulators
Post Insulators
Pin Type Porcelain Insulators
Butterfly Type Porcelain Insulators
Line Post Porcelain Insulators
Porcelain Crossarm Insulators
Tension Insulators
Glass Insulators
Glass Insulators
Suspension Porcelain Insulators
Post Insulators
Pin Type Porcelain Insulators
Butterfly Type Porcelain Insulators
Line Post Porcelain Insulators
Porcelain Crossarm Insulators
Tension Insulators
Glass Insulators
LXZY-160 LXZY-210 LXZY-240 LXZY-420
Due to the high mechanical strength of the glass insulator surface, cracks are less likely to occur. The electrical strength of glass generally remains constant throughout the entire operational period, and its aging process is much slower than that of porcelain. Therefore, glass insulators are mainly discarded due to self-damage that occurs within the leading operational years. In contrast, the defects of porcelain insulators are only discovered several years into operation.
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LXAY-120
Due to the high mechanical strength of the glass insulator surface, cracks are less likely to occur. The electrical strength of glass generally remains constant throughout the entire operational period, and its aging process is much slower than that of porcelain. Therefore, glass insulators are mainly discarded due to self-damage that occurs within the leading operational years. In contrast, the defects of porcelain insulators are only discovered several years into operation.
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U210BP U240BP U300BP
Due to the high mechanical strength of the glass insulator surface, cracks are less likely to occur. The electrical strength of glass generally remains constant throughout the entire operational period, and its aging process is much slower than that of porcelain. Therefore, glass insulators are mainly discarded due to self-damage that occurs within the leading operational years. In contrast, the defects of porcelain insulators are only discovered several years into operation.
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U160BP
Due to the high mechanical strength of the glass insulator surface, cracks are less likely to occur. The electrical strength of glass generally remains constant throughout the entire operational period, and its aging process is much slower than that of porcelain. Therefore, glass insulators are mainly discarded due to self-damage that occurs within the leading operational years. In contrast, the defects of porcelain insulators are only discovered several years into operation.
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LXHP-1201
Due to the high mechanical strength of the glass insulator surface, cracks are less likely to occur. The electrical strength of glass generally remains constant throughout the entire operational period, and its aging process is much slower than that of porcelain. Therefore, glass insulators are mainly discarded due to self-damage that occurs within the leading operational years. In contrast, the defects of porcelain insulators are only discovered several years into operation.
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LXY-40 LXY-70 LXY-100 LXY-120 LXY-160 LXY-210 LXY-240 LXY-300 LXY-420 LXY-550
Due to the high mechanical strength of the glass insulator surface, cracks are less likely to occur. The electrical strength of glass generally remains constant throughout the entire operational period, and its aging process is much slower than that of porcelain. Therefore, glass insulators are mainly discarded due to self-damage that occurs within the leading operational years. In contrast, the defects of porcelain insulators are only discovered several years into operation.
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U70CN200
Due to the high mechanical strength of the glass insulator surface, cracks are less likely to occur. The electrical strength of glass generally remains constant throughout the entire operational period, and its aging process is much slower than that of porcelain. Therefore, glass insulators are mainly discarded due to self-damage that occurs within the leading operational years. In contrast, the defects of porcelain insulators are only discovered several years into operation.
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