Rock fracture mechanics : principles, design, and applications
著者
書誌事項
Rock fracture mechanics : principles, design, and applications
(Developments in geotechnical engineering, 71)
Elsevier, 1992
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注記
Includes bibliographical references (p. 523-562) and index
内容説明・目次
内容説明
Rock fracture mechanics plays an important role in rock engineering. Designing rock structures to resist or minimise fracture occurrence or development is an important facet in rock structural engineering. Conversely, in some rock mechanics situations knowledge of exploiting the fracture behavioural properties of rocks in particular stress field conditions forms an important function in a number of processes ranging from hydraulic fracturing to blasting. This volume aims at providing the basis for making fracture mechanics assessments of rock behaviour as applied to a range of engineering situations. Attention is focussed on basic theories, analytical treatments and published data on field and laboratory observations. Applications of fracture mechanics principles to rock engineering fields are discussed and these include hydraulic fracture propagation and in situ stress determination, rock fragmentation by cutting and blasting actions, rockburst problems and slope stability assessment. The book contains over 800 references, and is supported extensively by equations, tables of data, diagrams, graphs and photographs.
目次
Preface. Contents. List of Notations. 1. Introduction. 2. Some Fundamental Aspects of Mechanics. 3. The Griffith Theory and the Evolution of Modern Fracture Mechanics. 4. Linear Elastic Fracture Mechanics and Fracture Initiation Theories. 5. Determination of Stress Intensity Factors. 6. Aspects of Non-linear Elastic Fracture Mechanics. 7. Some Aspects of Statistical Fracture Mechanics. 8. Mode I Fracture Toughness Testing. 9. Mode II and Mixed Mode I-II Fracture Toughness Testing. 10. Interrelationships Between Fracture Toughness, Hardness Index and Physico-Mechanical Properties of Rocks. 11. Fracture Mechanics Applied to Hydraulic Fracture Propagation and In Situ Stress Determinations. 12. Fracture Mechanics Applied to Rock Fragmentation by Cutting Action. 13. Fracture Mechanics Applied to Rock Fragmentation due to Blasting. 14. Fracture Mechanics Applied to Analysis of Rockbursts. 15. Fracture Mechanics Applied to Design and Stability of Rock Slopes Engineering Problems. Appendix: A Compilation of Mode I Fracture Toughness Values of Rocks. References. Supplementary List of Recommended References. Index.
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