04931nam 2200613Ia 450 991081161610332120230421044902.0(CKB)1000000000450689(EBL)3377443(SSID)ssj0000227845(PQKBManifestationID)11201956(PQKBTitleCode)TC0000227845(PQKBWorkID)10270876(PQKB)11300286(MiAaPQ)EBC3377443(Au-PeEL)EBL3377443(CaPaEBR)ebr10071472(OCoLC)923270628(EXLCZ)99100000000045068920050321d1995 uy 0engur|n|---|||||txtccrProbabilistic methods in geotechnical engineering[electronic resource] /Committee on Reliability Methods for Risk Mitigation in Geotechnical Engineering, Geotechnical Board, Board on Energy and Environmental Systems, Commission on Engineering and Technical Systems, National Research CouncilWashington, D.C. National Research Council19951 online resource (96 p.)Committee chair: Wilson H. Tang.This project was sponsored by the following agencies: Department of the Army (Army Corps of Engineers-DACW39-92-M-7433), Department of Transportation (Federal Highway Administration), National Science Foundation-MSS-9203139, Department of Energy (Yucca Mountain Project Office).Support was also provided by: Defense Nuclear Agency, Department of the Air Force (Air Force Office of Scientific Research), Department of the Interior (Bureau of Mines and Bureau of Reclamation), Department of Transportation (Federal Transit Administration), Department of Energy (Office of Superconducting Super Collider), Department of the Army (Defense Nuclear Agency), and Nuclear Regulatory Commission.0-309-57297-5 Includes bibliographical references.""Probabilistic Methods in Geotechnical Engineering""; ""Copyright""; ""Contents""; ""Executive Summary""; ""CONCLUSIONS""; ""RECOMMENDATIONS""; ""1 Introduction""; ""REFERENCES""; ""2 Use of Probabilistic Methods""; ""INTRODUCTION""; ""BACKGROUND""; ""FACTORS THAT HAVE INHIBITED USE""; ""AREAS THAT HAVE POTENTIAL FOR WIDESPREAD USE""; ""Example 1: Probability of Levee Failure""; ""Example 2: Seismic Hazard Analysis of an Earth Dam""; ""Example 3: Risk Analysis for Dam Design in Karst Terrain""; ""Example 4: Selecting Pumping Rates for an Extraction Well""""Example 5: Site Investigation Strategy""""Example 6: Selecting the Design Safety Factor for a Dike""; ""Example 7: Quality Assurance of Geomembrane Liners""; ""Example 8: Penetration Resistance of an Offshore Gravity Platform""; ""Example 9: Selecting Design Strength for Slopes in Glacial Lacustrine Soil""; ""REFERENCES""; ""3 The Role of Probability in Codes and Regulations""; ""INTRODUCTION""; ""BACKGROUND""; ""APPLICATION OF LOAD- AND RESISTANCE-FACTOR DESIGN""; ""EUROCODE NO. 7, GEOTECHNICS""; ""CODES RELATED TO ENVIRONMENTAL GEOTECHNICS""; ""CONCLUSIONS""; ""REFERENCES""""4 Education Needs and Technology Transfer""""INTRODUCTION""; ""EDUCATION OF GEOTECHNICAL ENGINEERING STUDENTS""; ""EDUCATION OF PRACTICING GEOTECHNICAL ENGINEERS""; ""REFERENCES""; ""Appendix A: Background and Statement of Work""; ""BACKGROUND""; ""STATEMENT OF WORK""; ""Appendix B: Workshop Agenda and Participants""; ""AGENDA""; ""WORKSHOP PARTICIPANTS""; ""Appendix C: Basic Concepts of Probability and Reliability""; ""BACKGROUND""; ""DESCRIPTION OF UNCERTAINTIES AND PROBABILITY ASSESSMENT""; ""FROM SOIL SPECIMAN TO IN SITU PROPERTY""; ""FROM FIELD-TEST TO FIELD PERFORMANCE""""FACTOR OF SAFETY""""RELIABILITY-BASED DESIGN""; ""MULTIPLE MODES OF FAILURE""; ""UPDATING OF INFORMATION""; ""UNCERTAINTY IN MAPPING OF MATERIAL TYPES""; ""DECISION UNDER UNCERTAINTY""; ""REFERENCES""; ""Appendix D: A Selected Bibliography on Geotechnical Reliability""; ""TECHNICAL BOOKS AND JOURNALS""; ""CONFERENCE PROCEEDINGS""Engineering mathematicsProbability measuresEngineering mathematics.Probability measures.519.2/4Tang Wilson H28362National Research Council (U.S.).Committee on Reliability Methods for Risk Mitigation in Geotechnical Engineering.National Research Council (U.S.).Geotechnical Board.National Research Council (U.S.).Board on Energy and Environmental Systems.National Research Council (U.S.).Commission on Engineering and Technical Systems.MiAaPQMiAaPQMiAaPQBOOK9910811616103321Probabilistic methods in geotechnical engineering4031801UNINA