Because one pole or tower failure can be a disaster, it is important for the electrical utility, the owner of the wireless telecommunications tower site, the city, commercial property owners and other individuals responsible for public safety to routinely maintain the service of Certified Nace Inspector. You can get reliable transmission tower inspection via https://www.infrastructurepc.com/transmission-tower-inspection-service/.
Corrosion on the tower and polar channel transmission is directly related to the atmospheric conditions and land present for a unique location of certain pole structures, as well as manufacturing materials and the quality of these ingredients:
- Internal corrosion due to the presence or corrosive water trap (electrolytes)
- External corrosion due to corrosive and environmental atmospheric conditions
- Fatigue traffic and light pole due to wind loading and inadequate designs
- Disabled manufacturing and the selection and application of paint coating that is not right
- Little or not treatment in the corrosive environment
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Physical inspection and measurement of UV thickness is carried out to determine the thickness of steel members using an ultrasonic thickness gauge. The tower is checked at the ground level and in any location that seems questionable with a three-point inspection that covers the legs and braces on both sides of the IT layer thickness also checked at these points using the elcometer 456 layer thickness gauge.
ASTM A-123A referenced for requirements Coating thickness. Galvanized thickness and protective organic coatings are measured too. Concrete foundation and retaining hardware are checked visually for wear and damage. Concrete hardness tests are carried out using a hammer of digital concrete tests.
Two volcanic measurements are taken per corner of the foundation – a set of four readings on the foundation (vertical reading) and a set of four readings on the side (reading horizontal). 6-accumulation of debris and soil under the base plate