A study on relation between acoustic emission and characteristic displacement field on the sample with multi en echelon structures — The theoretic and experimental explorations of strain gap |
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Authors: | Chen Shun-yun Xu Zhao-yong Yang Run-hai Zhao Jin-ming Hao Jin-qi Wang Yun-yun Xiong Bing-heng Wang Zheng-rong |
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Affiliation: | (1) Institute for Disaster Prevention of Yunnan Province, 650041 Kunming, China;(2) Institute of Geophysics, China Seismological Bureau, 100081 Beijing, China;(3) Laser Institute, Kunming Technology University, 650051 Kunming, China |
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Abstract: | Based on the phenomena that the deformation gap was observed before the great Tangshang earthquake, this paper discusses the strain gap according to test and theory. The (strain) patterns were recorded photographically by realtime holographic interferometry and shadow optical method of caustics, as soon as the loading process started. In the meantime, the AE (acoustic emission) signals were recorded by a micro crack information storage-analysis system. According to damage theory and location of micro fracture, we have studied the stain gap and gained: a) It is necessary that strain gap appears under the condition of linear elasticity theory, and its situation is relatively stable, corresponding to stress concentration. b) Micro fractures, which appear initially at area of high stress, occur rarely at the strain gap, and their locations are finally in the zone between the stress concentration area and the strain gap, which indicate the clusters or groups. However, the major macro fracture (final rupture) started from the shadow areas, and then grew quickly towards the strain gaps, which resulted in failure of sample. Foundation item: The Dual Project of China Seismological Bureau (9691309020301), the Specialized Funds for National Key Basic Study (G1998040704), the project for the MOST under contract (2001BA601B02) and Youth Funds for applied basic study of the Science and Technology Bureau of Yunnan Province (98D019Q). |
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Keywords: | strain gap main fracture micro fracture damage theory |
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