Nontraditional Methods of Sensing Stress, Strain, and Damage in Materials and Structures
Editor(s): George F. Lucas, Peter C. McKeighan, Joy S. Ransom
The latest volume in this series examines new and nontraditional methods of measuring mechanical properties in materials and structures including: imaging systems to infer deformation fields, acoustic emission techniques, and unique applications and sensors. Many of these novel methods allow measurement of features and parameters that in the past have been difficult if not impossible to sense and distinguish.
13 peer-reviewed papers are divided into 4 sections:
• Fracture Mechanics and Structural Integrity
• Damage Evolution and Measurement
• Strain and Displacement Measurement Techniques
• Current Status and Future Sensor Development: Panel Discussion Summary
Table of Contents
J. D. Helm, M. A. Sutton, M. L. Boone
P. C. McKeighan, A. E. Nicholls, L. C. Perocchi, R. C. McClung
Adam Towse, Christopher Setchell, Kevin D. Potter, Andrew B. Clarke, John H. G. Macdonald, Michael R. Wisnom, Robert D. Adams
Narayanaswami Ranganathan, Nicolas Gerard, Abdellah Tougui, René Leroy, Mohamed Benguediab, Mohamed Mazari, Yves Nadot, Jean Petit
Daniel P. Nicolella, Arthur E. Nicholls, James Lankford, Dwight T. Davy
Gary L. Burkhardt, Alfred E. Crouch
Tait S. Smith, Brian K. Bay
Jeffrey C. Suhling, Richard C. Jaeger
Yoshiharu Morimoto, Motoharu Fujigaki
Shiping Chen, James S. Sirkis
Shan-Tung Tu, Jian-Ming Gong, Xiang Ling, Xiao-Yuan He
X. Q. Ma, M. Takemoto
Joy S. Ransom, Peter C. McKeighan