For Libraries For Publication Open Access Downloads About Us Contact Us
Paper Titles
Fatigue Properties of Magnesium Alloy under Biaxial Stress
p.1246
Fracture Behavior under Dynamic Biaxial Stress on Magnesium Alloy
p.1254
Evaluation of the Mixed Mode Stress Intensity Factor by Infrared Thermography
p.1262
Determination of Stress Intensity Factor near Crack-Tip of Anisotropic Polycarbonate Plate under Biaxial Loading
p.1270
Ultrasonic NDE of Closed Cracks-Sizing and Evaluation of Crack Opening Stress Intensity Factor under a No Load Condition
p.1277
Quantitative Phase Analysis of the Multi-Phase Alloys Using Neutron Diffraction
p.1285
Very Low Energy Neutron Radiography with Neutron Energy Selection System for Variable Image Contrast
p.1291
Development of CT Imaging System with Very Low Energy Neutrons
p.1297
A Monte Carlo Study of Contraband Detection Using Fast Neutron Resonance Technique
p.1304

Ultrasonic NDE of Closed Cracks-Sizing and Evaluation of Crack Opening Stress Intensity Factor under a No Load Condition

Article Preview

Abstract:

You might also be interested in these eBooks
Advances in Nondestructive Evaluation View Preview

Info:

Periodical:

Key Engineering Materials (Volumes 270-273)

Pages:

1277-1284

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.270-273.1277

Citation:

Cite this paper

Online since:

August 2004

Authors:

Masumi Saka, M.A. Salam Akanda, S. Reaz Ahmed

Keywords:

Inverse Analysis, Small Closed Crack, Stress Intensity Factor (SIF), Ultrasonic NDE

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2004 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

References

[1] M. Saka, E. Schneider and P. Höller: Res. Nondestr. Eval. Vol. 1 (1989), p.65.

Google Scholar

[2] M. Saka and H. Abé: Topics in Engineering, Computational and Experimental Fracture Mechanics, Developments in Japan, (Computational Mechanics Publications, Southampton Vol. 16, 1994).

Google Scholar

[3] M. Saka and T. Uchikawa: NDT&E International Vol. 28 (1995), p.289.

Google Scholar

[4] S.R. Ahmed and M. Saka: Trans. ASME, J. Pressure Vessel Technology Vol. 120 (1998), p.384.

Google Scholar

[5] S.R. Ahmed and M. Saka: Materials Eval. Vol. 58 (2000), p.564.

Google Scholar

[6] S.R. Ahmed and M. Saka: NDT&E International Vol. 33 (2000), p.261.

Google Scholar

[7] S.R. Ahmed and M. Saka: Materials Eval. Vol. 60 (2002), p.535.

Google Scholar

[8] S.R. Ahmed and M. Saka: JSME International J. Series A Vol. 43 (2000), p.358.

Google Scholar

[9] S.R. Ahmed and M. Saka: J. Nondestr. Eval. Vol. 21 (2002), p.9.

Google Scholar

[10] M.A.S. Akanda and M. Saka: JSME International J. Series A Vol. 45 (2002), p.252.

Google Scholar

[11] M.A.S. Akanda and M. Saka: Strength, Fracture and Complexity Vol. 1 (2003), p.89.

Google Scholar

[12] M. Saka and M.A.S. Akanda: Research Advances in Applied Physics Vol. 3 (2003), p.1.

Google Scholar

[13] W. Elber: ASTM STP Vol. 486 (1971), p.230.

Google Scholar

[14] M. Kikukawa, M. Jono, K. Tanaka and M. Takatani: J. Soc. Materials Science, Japan Vol. 25 (1976), p.899 (in Japanese).

Google Scholar

[15] N.A. Fleck: Fatigue Crack Measurement: Techniques and Applications, (Engineering Materials Advisory Services, Warley 1991).

Google Scholar

[16] Annual Book of ASTM Standards, Metals Test Methods and Analytical Procedures, Vol. 03. 01, Section 3, (ASTM Designation: E 399-90 Reapproved 1997).

Google Scholar

[17] Y. Murakami, Ed-in-chief: Stress Intensity Factors Handbook, (Pergamon Press, Oxford, Vol. 1, 1987).

Google Scholar

[18] H.F. Bueckner: Mechanics of Fracture, (Noordhoff International Pub., Leyden Vol. 1, 1973).

Google Scholar

© 2025 Trans Tech Publications Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. For open access content, terms of the Creative Commons licensing CC-BY are applied.
Scientific.Net is a registered trademark of Trans Tech Publications Ltd.