Ultrasonic Sensitivity Enhancement for Material Characterization Using Guided Wave Energy Loss Parameters

Abstract:

Article Preview

Info:

Periodical:

Key Engineering Materials (Volumes 270-273)

Edited by:

Seung-Seok Lee, Dong-Jin Yoon, Joon-Hyun Lee and Sekyung Lee

Pages:

442-446

Citation:

Y. H. Cho et al., "Ultrasonic Sensitivity Enhancement for Material Characterization Using Guided Wave Energy Loss Parameters ", Key Engineering Materials, Vols. 270-273, pp. 442-446, 2004

Online since:

August 2004

Export:

Price:

$38.00

[1] Yamashita, M., Viswanathan, U. K., Yamamoto, I. and Kobayashi, T., Service-induced Changes in the Microstructure and Mechanical Properties of a Cr-Mo-Ni-V Turbine Steel, ISIJ International, Vol. 37, NO. 11, p.1133~1138, (1997).

DOI: https://doi.org/10.2355/isijinternational.37.1133

[2] Viswanathan, R. and Bruemmer, S. M., In-Service Degradation of Toughness of Steam Turbine Rotors, Transactions of the ASME, Vol. 107, p.316~324, (1985).

[3] Hur, S. K., Hong, K. T. and Do, T. M., The measurement of Degradation in Creep-Ruptured Cr-Mo-V steels by NDE Methods, Proc. of the 2nd Conference on Mechanical Behaviors of Materials, Seoul, Korea, p.17~24, (1988).

[4] Yokono, Y., Katoh, Y. and Nisho, K., Characteristics of Surface SH Wave Probe and its Application for Detecting Surface and Subsurface Flaws, Proc. of the 8th APCNDT, (1995).

[5] Park, I. K., Kim, H. M., Experimental Verification on the Detectability and Quantitative Evaluation of Surface Flaws using Surface SH-wave Ultrasonic Method; Selection of Optimal Testing Condition and Detection of Thin Plates, Proceeding of KSNT, Seoul, pp.100-112, (1999).

[6] Park, I. K., Park, U. S. and Kim, H. M., Nondestructive Evaluation for Degraded 2. 25Cr-1Mo Steel though Surface SH-wave, Proceeding of KSME, Vol. A, pp.280-285, (2000).

[7] Adbel, A. M., Corbett, J. M. and Talpin, D. M., Met. SCI., 16, p.90, (1982).