Mechanics of Nondestructive Testing

✍ Scribed by Daniel Post (auth.), W. W. Stinchcomb, J. C. Duke Jr., E. G. Henneke II, K. L. Reifsnider (eds.)

Publisher: Springer US
Year: 1980
Tongue: English
Leaves: 406
Edition: 1
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

The synergism of the mechanics of nondestructive testing and the mechanics of materials response has great potential value in an era of rapid development of new materials and new applications for con ventional materials. The two areas are closely related and an advance in one area often leads to an advance in the other. As our understanding of basic principles increases, nondestructive testing is outgrowing the image of "black box techniques" and is rapidly becoming a legitimate technical area of science and engineering. At the present time, however, an understanding of the mechanics of nondestructive testing is lagging behind other advances in the field. The key to further development in the mechanics of nondestructive testing lies in the mechanics of the phenomena or response being investigated - a better understanding of materials response suggests better nondestructive test methods to investigate the response which, in turn, advances our understanding of materials response, and so on. With this approach in mind, the Materials Response Group of the Engineering Science and Mechanics Department at Virginia Polytechnic Institute and State University hosted a Conference on the Mechanics of Nondestructive Testing on September 10 through 12, 1980. Sponsors of the conference were the Army Research Office, the National Science Foundation, and the Engineering Science and Mechanics Department.

✦ Table of Contents

Front Matter....Pages i-ix
Optical Interference for Deformation Measurements--Classical, Holographic and Moiré Interferometry....Pages 1-53
Basic Wave Analysis of Acoustic Emission....Pages 55-76
A Survey of Electromagnetic Methods of Nondestructive Testing....Pages 77-100
Stiffness Change as a Nondestructive Damage Measurement....Pages 101-121
Concepts and Techniques for Ultrasonic Evaluation of Material Mechanical Properties....Pages 123-141
Neutron Diffraction and Small-Angle Scattering as Nondestructive Probes of the Microstructure of Materials....Pages 143-164
Determination of Fundamental Acoustic Emission Signal Characteristics....Pages 165-185
A Simple Determination of Von Karman Critical Velocities....Pages 187-196
Fracture Prediction by Rayleigh Wave Scattering Measurement....Pages 197-213
Anisotropic Elastic Constants of a Fiber-Reinforced Boron-Aluminum Composite....Pages 215-230
Nondestructive Evaluation of the Effects of Dynamic Stress Produced by High-Power Ultrasound in Materials....Pages 231-248
The Mechanics of Vibrothermography....Pages 249-276
Dynamic Photoelasticity as an Aid to Sizing Surface Cracks by Frequency Analysis....Pages 277-292
Ultrasonic and X-Ray Radiographic Inspection and Characterization of Defects in Gr/Aℓ Composites....Pages 293-307
Evaluation of Sensitivity of Ultrasonic Detection of Delaminations in Graphite/Epoxy Laminates....Pages 309-324
Influence of Initial Defect Distribution on the Life of the Cold Leg Piping System....Pages 325-342
In-Flight Acoustic Emission Monitoring....Pages 343-365
On Interrelation of Fracture Mechanisms of Metals and Acoustic Emission....Pages 367-390
Fatigue Delamination in CFRP Composites : Study with Acoustic Emission and Ultrasonic Testing....Pages 391-402
Back Matter....Pages 403-405

✦ Subjects

Nanotechnology and Microengineering; Characterization and Evaluation of Materials; Materials Science, general

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