Evident LogoOlympus Logo
자료실
Application Notes
자료로 돌아가기

위상 배열을 이용한 열차 차륜 검사


Inspecting Train Wheels Using Phased Array

Background

Stringent regulations are imposed on the inspection of train wheels in both the manufacturing and service sectors. To meet and exceed these strict criteria, Olympus provides powerful and flexible ultrasonic instruments, dedicated software, and turnkey systems to inspect cast or forged wheels during manufacturing or while they are in service after reprofiling.

Typical Inspection Procedure

Post-Manufacturing Inspection

When cast or forged wheels are manufactured, the rim is inspected using ultrasonic phased array technology. The rest of the wheel is inspected using magnetic particle testing.

The rim is inspected by placing one linear phased array probe on the tread and a second on the rim’s side (Figure 1).

During this process, the hub can also be inspected using a third linear phased array probe. It is also possible to inspect the hub from both sides (Figure 2).

The rim is inspected using two linear phased array probes.
Figure 1. The rim is inspected using two linear phased array probes.
Inspect the wheel’s hub using a third linear phased array probe.
Figure 2. Inspect the wheel’s hub using a third linear phased array probe.

In-Service Inspection

In-service train wheels require periodic reprofiling. During this process, material is removed from the wheel to restore it to its original profile. When reprofiling is completed, the wheel rim is checked from the tread using a linear phased array probe before it goes back into service (Figure 3). Typically, a 5 MHz, 128-element phased array probe is used in this application. A linear scan is performed to cover the area of interest (Figure 4).

Checking the tread using a linear phased array probe.
Figure 3. Checking the tread using a linear phased array probe.
A linear scan.
Figure 4. A linear scan.

System Performance

The inspection solution for the tread is designed to detect flaws whose size is equivalent to 1–3.2 mm diameter flatbottomed holes. The typical dead zone is 10 to 5 mm below the rim’s surface. Dead zones can be further reduced using special features in the software.

The solution enables fast wheel inspection.
Figure 5. The solution enables fast wheel inspection.
Dedicated software for wheel inspection
Figure 6. Dedicated software for wheel inspection

To meet wheel manufacturing inspection requirements, the rim can be inspected to detect flaws with a size equivalent to 3 mm diameter flat-bottomed holes with a repeatability of 2 dB, a signal-to-noise ratio (SNR) of 22 dB, and a typical dead zone of > 6 mm. The inspection speed ranges from 4 to 8 inches per second, enabling users to inspect a 36-inch wheel in less than 30 seconds. This procedure meets or exceeds international train wheel inspection standards such as EN13262, ISO5948, and AAR M-107/M-208.

An immersion tank with phased array probes
Figure 7. An immersion tank with phased array probes for in-production wheel rim inspection.

Conclusion

Olympus’ train wheel inspection solutions provide fast, accurate results to help ensure the reliability and safety of critical transportation systems. The available solutions include turnkey mechanics and an immersion probe along with a FOCUS PX™ phased array acquisition unit and RailView data acquisition and analysis software housed in an industrial-grade cabinet.

FocusPX unit combined optionally with other units, a computer, and optional air conditioning, light, and sound.
Figure 8. A cabinet is used to house one or two FOCUS PX units and a computer. It includes a keyboard tray and stand and can be equipped with air conditioning, a light, and a sound alarm.
Olympus’ wheel tread inspection solution.
Figure 9. Olympus’ wheel tread inspection solution, featuring a custom bubbler and immersion probe.

Olympus IMS

이 애플리케이션에 사용되는 제품

확장 가능한 FOCUS PX 획득 장치와 FocusPC 소프트웨어에는 최신 위상 배열 및 기존 UT 기술이 포함되어 있어 자동화 및 반자동화된 시스템에 쉽게 통합됩니다. C-스캔과 A-스캔 원시 데이터를 생성하고 저장하는 FOCUS PX 및 자체 소프트웨어의 기능 덕분에 이 제품은 검사 후 데이터 분석에 기반하여 검사 결과가 나오는 응용 분야에 가장 적합합니다. 예를 들면 항공우주 산업(복합 적층판), 발전(풍력 블레이드), 수송(차륜), 금속(단조 부품) 등의 분야가 여기에 속합니다.

옵션형 FocusControl, FocusData 및 OpenView 소프트웨어 개발 키트(SDK)는 FOCUS PX 장치와 호환되므로 고객은 자체 응용 프로그램애플리케이션 소프트웨어를 개발할 수 있습니다.

죄송합니다. 이 페이지는 해당 국가에서 사용할 수 없습니다.
아래 양식을 작성하여 원하는 내용을 알려주십시오.
죄송합니다. 이 페이지는 해당 국가에서 사용할 수 없습니다.