How to Use PMI Testing for Gas and Steam Turbine Components
Power plants depend on gas and steam turbines to produce electricity efficiently and safely. Failures in these systems, often due to incorrect materials, can have devastating consequences. Positive material identification (PMI) acts as a vital defense against such failures. PMI testing employs cutting-edge technology to confirm the chemical composition of metals without causing harm. This...
Learn More
Positive Material Identification in Turbine Repair – Why it Matters
A single misidentified alloy during turbine component repair can destroy months of careful maintenance planning. Your power plant’s next scheduled outage involves millions in contractor costs, replacement parts, and lost generation revenue—all riding on the assumption that every component meets its material specifications. But what if that replacement blade contains 12% chromium instead of the...
Learn More
Turbine Rotor Repair – Common Damage Modes and How to Fix Them
Power plants across the United States face critical challenges when their steam turbine and gas turbine equipment starts showing signs of degradation. Every power generation facility depends on reliable turbine performance to meet electricity demands and avoid costly outages. Steam turbines operate under extreme conditions with specific temperature and pressure requirements. When these parameters shift...
Learn More
The Role of Surface Treatments & Coatings in Gas Turbine Component Longevity
In the United States, power generation facilities heavily depend on gas turbine engines and steam turbines. These engines operate under extreme conditions daily. The right turbine surface treatment is key. It determines whether equipment fails early or runs reliably for years. The correct coating system shields critical components from heat, pressure, and chemical damage. Modern...
Learn More