A Diagnostic Technique for the Inspection of Pipes in MOCVD System

Ju Young Yun; Yong Hyeon Shin; Kwang Hwa Chung

doi:10.4028/www.scientific.net/KEM.321-323.1636

Paper Titles

The Identification of Relationship between Vibration and Noise of Universal Motor in Working Status
p.1616

Characteristics of Crack Detection on Plates Using Strain Mode Shapes; Sensor Grids and Geometry
p.1620

Analysis of Vibration Caused by Ball Bearing in a HDD Spindle System at Elevated Temperature
p.1624

Robust Measurement of Damping Ratios of a Railway Contact Wire Using Wavelet Transforms
p.1629

A Diagnostic Technique for the Inspection of Pipes in MOCVD System
p.1636

Image Reconstruction of Blockage in the Continuous and Stepped Pipelines by Noninvasive Acoustic Method
p.1640

Nonlinear Structural Dynamic Analyses of Micro Cantilever Beams Actuated by Electrostatic Force
p.1644

Dynamic Impact Analysis of a Rotating Beam Having a Tip Mass
p.1649

Dynamic Stability Characteristics of Axially Accelerated Beams
p.1654

HomeKey Engineering MaterialsKey Engineering Materials Vols. 321-323A Diagnostic Technique for the Inspection of Pipes...

A Diagnostic Technique for the Inspection of Pipes in MOCVD System

Abstract:

In examining particulate deposits in the pipes within a chemical vapor deposition (CVD) system, vibration diagnostics is compared and studied against ultrasonic diagnostics. The latter method involves pulsing the outer wall of pipes with an ultrasonic sensor and analyzing the resulting echo to observe particulate deposits inside pipes. Vibration diagnostics examines the existence of particulate deposits by analyzing the difference in the frequencies generated when a vibrator is adhered to the outer wall of pipes. With ultrasonic diagnostics, good test results were obtained only when particulate deposits were attached to the inner wall of the pipes. After some time, however, particulate deposits were not detected properly, as the ultrasonic wave failed to cross the fine gaps created between the inner wall of the pipe and the deposits. In conclusion, the vibration diagnostics is being expected as the effective method in monitoring the particulate deposits inside pipes in the CVD system where the desired behavior is reduced frequency along with the the particulate deposits in comparison to the case where the pipe is clean.