Engines-Damage to the compressor, combustion chamber and junction of high and low pressure turbines in the core engine; aircraft engines work in high temperature, high pressure and high speed environment, so fatigue damage and failure also occur in high temperature, high pressure and high speed parts, which are not easy to disassemble and cannot be directly visually inspected. Therefore, the inspection and monitoring of these parts must rely on borescope inspection technology. (Cracks and damage of blades, the size of the gap between blades and casing, etc.)
Engine (gas turbine) – crack defect detection of gas chamber and turbine
Excess material inspection of diesel engine, boiler pipeline, etc.
Three-way catalytic converters-excess materials from casting and processing
Engine-excess materials from casting and processing
Hydraulic control-excess material detection of valve blocks and pipelines
New energy vehicle battery pack cooling valve-excess material and defect detection
Engine/Transmission/Main Work, Car/Truck/Bus, Auto, Go-Kart/Boat, used to improve the quality of engine, transmission, muffler, fuel pipe and other parts.
Blade inspection
Wind turbine blades are susceptible to wind erosion, cracks, fatigue and other problems during operation. Industrial endoscopes can help technicians perform non-destructive inspections on the internal structure, gaps and surface of the blades, and find defects such as microcracks, delamination, inclusions, etc., so as to carry out maintenance or replacement in advance to ensure the safe operation of the blades.
Generator and gearbox maintenance
The generator and gearbox in the wind turbine have small space and complex structure. Using an industrial endoscope, you can enter the equipment to check the grooves, bearings and lubrication systems, identify problems such as sludge, wear, cracks, etc., reduce the workload of disassembly, and improve maintenance efficiency.
In fields such as aerospace, 3D printing technology can manufacture parts with complex shapes and high precision, and videoscopes can be used to detect defects in flow channels.
Development trend of videoscopes in additive manufacturing industry
With the continuous development and innovation of 3D printing technology, its application in aerospace and other fields is becoming more and more extensive. The advantage of 3D printing technology is that it can manufacture complex parts in an efficient, fast and economical way, and it has brought many opportunities and challenges to the aerospace industry. It is widely used in aircraft manufacturing, engine parts, spacecraft components, etc., and has great potential for future development. The demand for videoscope detection is also increasing.
Applications
Some characteristics of additive manufacturing parts: small entrance, many bends, very rough inside the untreated flow channel;
Material: titanium alloy, nickel-titanium alloy, etc.,
Defect type: excess material (slag), burrs, cracks, etc.
Videoscope: ultra-thin, ultra-small bend videoscope
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