![]() ![]() Better control of welding process, also giving lower rejection rate Phased Array Technology.Data and inspection reports on electronic support.Real-time analysis from smart output display.Use of Engineering Critical Assessment (ECA) acceptance criteria with measurement of vertical height and depth of indications, reducing rejection rate.Better detection and sizing accuracy, leading to lower rejection rate.Very short inspection cycle time for high production rate.No radiation hazard, no chemicals, no licensing.Radiography has significant limitations: poor detection of planar defects, no vertical sizing capability, safety issues, and environmental concerns. In the last several years, automated ultrasonic testing (AUT) has begun overtaking traditional radiography as the pipeline weld inspection method of choice throughout the world. Due to the demanding construction cycle, it is important that weld defects be detected and analyzed very quickly. ![]() Welds are nondestructively tested, coated, and buried or laid on the sea bed. For construction of pipelines, welds are the "weak spot" as this is where defects tend to occur. Pipes are girth-welded on-site, typically using automated welding systems. Pipelines perform a critical function in the global economy, transporting huge volumes of gas, oil, water, and other chemicals. Specially designed for in-site weld-to-weld inspection in extreme environments, on-shore and off-shore. The PipeWIZARD is an automated girth weld inspection system using phased array and conventional UT techniques (AUT). Pipecheck Pipeline Integrity Assessment Software.XRF Analyzer and XRD Analyzer Solutions. ![]()
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