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Risk assessment in geotechnical engineering /
Fenton, Gordon A.
Risk assessment in geotechnical engineering / Gordan A. Fenton, D.V. Griffiths. - xvii, 461 pages : illustrations ; 29 cm.
Includes bibliographical references (pages 435-442) and index.
1. Review of Probability Theory 2. Discrete Random Processes. 3. Random Fields. 4. Best Estimates, Excursions, and Averages. 5. Estimation. 6. Simulation. 7. Reliability-Based Design. 8. Groundwater Modeling. 9. Flow Through Earth Dams. 10. Settlement of Shallow Foundations. 11. Bearing Capacity. 12. Deep Foundations. 13. Slope Stability. 14. Earth Pressure. 15. Mine Pillar Capacity. 16. Liquefaction. References. Appendices. A Tables. A.1 Standard Normal Distribution. A.2 Inverse Student-T Distribution. A.3 Inverse Chi-Square Distribution. B Numerical Integration. C Computing Variances and Covariances of Local Averages. PART 1: THEORY. PART 2: PRACTICE.
The increasing sophistication of buildings and bridges demands new analytical techniques. Reliability-based design is a well established technique in the structural and mechanical engineering communities that is now gaining momentum among geotechnical engineers. This book introduces an innovative reliability-based method for risk assessment in geotechnical engineering that allows engineers to create a better model for analyzing the properties and possible failure of a slope, mine shaft, foundation, embankment, or surface soil. By better modeling the spatially variable nature of soil and rock in the real world, the method presents a more accurate simulation which leads to safer designs. The book offers nine examples of the method in practice, utilizing the included software to demonstrate its use in the evaluation and design stages.
0470178205 9780470178201
2007044825
Soil mechanics.
Rock mechanics.
Risk assessment.
TA710 / .F385 2008
Risk assessment in geotechnical engineering / Gordan A. Fenton, D.V. Griffiths. - xvii, 461 pages : illustrations ; 29 cm.
Includes bibliographical references (pages 435-442) and index.
1. Review of Probability Theory 2. Discrete Random Processes. 3. Random Fields. 4. Best Estimates, Excursions, and Averages. 5. Estimation. 6. Simulation. 7. Reliability-Based Design. 8. Groundwater Modeling. 9. Flow Through Earth Dams. 10. Settlement of Shallow Foundations. 11. Bearing Capacity. 12. Deep Foundations. 13. Slope Stability. 14. Earth Pressure. 15. Mine Pillar Capacity. 16. Liquefaction. References. Appendices. A Tables. A.1 Standard Normal Distribution. A.2 Inverse Student-T Distribution. A.3 Inverse Chi-Square Distribution. B Numerical Integration. C Computing Variances and Covariances of Local Averages. PART 1: THEORY. PART 2: PRACTICE.
The increasing sophistication of buildings and bridges demands new analytical techniques. Reliability-based design is a well established technique in the structural and mechanical engineering communities that is now gaining momentum among geotechnical engineers. This book introduces an innovative reliability-based method for risk assessment in geotechnical engineering that allows engineers to create a better model for analyzing the properties and possible failure of a slope, mine shaft, foundation, embankment, or surface soil. By better modeling the spatially variable nature of soil and rock in the real world, the method presents a more accurate simulation which leads to safer designs. The book offers nine examples of the method in practice, utilizing the included software to demonstrate its use in the evaluation and design stages.
0470178205 9780470178201
2007044825
Soil mechanics.
Rock mechanics.
Risk assessment.
TA710 / .F385 2008
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