The theme of the 15th International Acoustic Emission Symposium (IAES15) was set as 'practicality for life-extension and maintenance of plants and structures'. Special emphasis was placed on the review of acoustic emission (AE) research and applications in the 20th century and its future in the 21st century.
The technique for monitoring defects and abnormal vibrations due to machine failures is vitally important for the safety of structures in a modern society. AE, as a passive, rather than an active NDT method, has drawn much attention because of its applicability to on-stream surveillance of structures. One important point is its capability to acquire data very simply but with high sensitivity so that the development of a non-contact sensing technique is particularly important. A quantitative method to evaluate structural integrity and remaining life from the detected AE signals is strongly required. Quantitative analysis, based on inverse procedures, has provided a certain solution, but has not been utilized widely enough in structures due to its complexity. Its applicability is limited partly because the accuracy of solutions depends on noise levels and partly because the phenomenon is usually non-reproducible.
AE is expected to be a next-generation technique not only to monitor conditions but also for the repair of damaged structures, combined with an active-adaptive technique using a 'solid state actuator'. 'Smart Materials and Structures' are known in this respect. AE is considered to be a very promising technique, together with such sensing techniques as optical fiber, shape memory alloy and electro-rheological fluid. Thus, AE can play a very important roll in monitoring, evaluating and repairing structures.
In this workshop, a limited number of invited papers are presented for technical discussion to review the achievements of AE research and applications in the 20th century. The proceedings are entitled Acoustic Emission - Beyond the Millennium to celebrate the new millennium, and stepping forward to a new era. The authors and topics of these review papers were selected by the editorial board.
For researchers in NDT&E, civil, mechanical and materials engineering interested in applications of acoustic emission in a wide variety of situations including characterization of materials, detection of fatigue damage and on-stream inspection of structures.
Preface. Acoustic emission source characterization in materials (M. Enoki, T. Kishi). Moment tensor analysis of AE and SiGMA code(M. Ohtsu). Wavelet transform - applications to AE signal analysis (M. Takemoto et al.). New goals for acoustic emission in materials research (K. Ono). Thirty years of advances and some remaining challenges in the application of acoustic emission to composite materials (M.A. Hamstad). Acoustic emission for the detection of fatigue damage (O.Y Kwon, K. Lee). Acoustic emission/microseismic technique: review of research in the 20th century and future aspects (H. Niitsuma). Acoustic emission in rock mechanics studies (G. Manthei et al.). Post-failure micromechanisms in shear banding of rock (J.F. Labuz, F.C.S. Carvalho). Advanced acoustic emission for on-stream inspection (M.F. Carlos et al.). Listen to your storage tanks to improve safety and reduce cost (P.T. Cole, P.J. Van De Loo). Acoustic emission in composite materials and structures (P. Fleischmann, J.C Lenain). Acoustic emission evaluation in concrete (S. Yuyama, M. Ohtsu). Diagnosis of machinery using acoustic emission techniques (T. Yoshioka). Author Index. Subject Index.
- No. of pages:
- © Elsevier Science 2000
- 1st September 2000
- Elsevier Science
- eBook ISBN:
National Institute for Advanced Interdisciplinary Research, Ibaraki 305-5862, Japan
Kumamoto University, Kumamoto 860-8555, Japan
Nippon Acoustics Ltd., Tokyo 150-0011, Japan