ENV 1997-1 : 1994
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
EUROCODE 7: GEOTECHNICAL DESIGN - GENERAL RULES
11-01-2004
01-01-1994
Foreword
1 GENERAL
1.1 Scope
1.1.1 Scope of Eurocode 7
1.1.2 Scope of Part 1 of Eurocode 7
1.1.3 Further Parts of Eurocode 7
1.2 References
1.3 Distinction between Principles and Application
Rules
1.4 Assumptions
1.5 Definitions
1.5.1 Terms common to all Eurocodes
1.5.2 Special terms used in Eurocode 7
1.6 S.I. units
1.7 Symbols common to all Eurocodes
1.8 Symbols used in Eurocode 7
1.8.1 Latin upper case letters
1.8.2 Latin lower case letters
1.8.3 Greek lower case letters
1.8.4 Subscripts
2 BASIS OF GEOTECHNICAL DESIGN
2.1 Design requirements
2.2 Design situations
2.3 Durability
2.4 Geotechnical design by calculation
2.4.1 Introduction
2.4.2 Actions in geotechnical design
2.4.3 Ground properties
2.4.4 Design strength of structural materials
2.4.5 Geometrical data
2.4.6 Limiting values for movements
2.5 Design by prescriptive measures
2.6 Load tests and tests an experimental models
2.7 The observational method
2.8 The Geotechnical Design Report
3 GEOTECHNICAL DATA
3.1 General
3.2 Geotechnical investigations
3.2.1 Introduction
3.2.2 Preliminary investigations
3.2.3 Design investigations
3.3 Evaluation of geotechnical parameters
3.3.1 General
3.3.2 Characterization of soil and rock type
3.3.3 Unit weight
3.3.4 Relative density
3.3.5 Degree of compaction
3.3.6 Undrained shear strength of cohesive soils
3.3.7 Effective shear strength parameters for soils
3.3.8 Soil stiffness
3.3.9 Quality and properties of rocks and rock masses
3.3.10 Permeability and consolidation parameters
3.3.11 Cone parameters
3.3.12 Blow count from standard penetration tests and
dynamic probing
3.3.13 Pressuremeter parameters
3.3.14 Dilatometer parameters
3.3.15 Compactibility
3.4 Ground Investigation Report
3.4.1 Presentation of geotechnical information
3.4.2 Evaluation of geotechnical information
4 SUPERVISION OF CONSTRUCTION, MONITORING AND MAINTENANCE
4.1 General requirements
4.2 Supervision
4.2.1 Plan of supervision
4.2.2 Inspection and control
4.2.3 Assessment of the design
4.3 Checking ground conditions
4.3.1 Soil and rock
4.3.2 Groundwater
4.4 Checking construction
4.5 Monitoring
4.6 Maintenance
5 FILL, DEWATERING, GROUND IMPROVEMENT
5.1 General
5.2 Fundamental requirements
5.3 Fill construction
5.3.1 Principles
5.3.2 Selection of fill material
5.3.3 Selection of fill placement and compaction
procedures
5.3.4 Checking the fill
5.4 Dewatering
5.5 Ground improvement and reinforcement
6 SPREAD FOUNDATIONS
6.1 General
6.2 Limit states
6.3 Actions and design situations
6.4 Design and construction considerations
6.5 Ultimate limit state design
6.5.1 Overall stability
6.5.2 Bearing resistance failure
6.5.3 Failure by sliding
6.5.4 Loads with large eccentricities
6.5.5 Structural failure due to foundation movement
6.6 Serviceability limit state design
6.6.1 Settlement
6.6.2 Vibration analysis
6.7 Foundations an rock: Additional design considerations
6.8 Structural design
7 PILE FOUNDATIONS
7.1 General
7.2 Limit states
7.3 Actions and design situations
7.3.1 General
7.3.2 Actions due to ground displacement
7.4 Design methods and design considerations
7.4.1 Design methods
7.4.2 Design considerations
7.5 Pile load tests
7.5.1 General
7.5.2 Static load tests
7.5.3 Dynamic load tests
7.5.4 Load test report
7.6 Piles in compression
7.6.1 Limit state design
7.6.2 Overall stability
7.6.3 Bearing resistance
7.6.4 Settlement of pile foundations
7.7 Piles in tension
7.7.1 General
7.7.2 Ultimate tensile resistance
7.7.3 Vertical displacement
7.8 Transversely loaded piles
7.8.1 General
7.8.2 Ultimate transverse load resistance
7.8.3 Transverse displacement
7.9 Structural design of piles
7.10 Supervision of construction
8 RETAINING STRUCTURES
8.1 General
8.2 Limit states
8.3 Actions, geometrical data and design situations
8.3.1 Actions
8.3.2 Geometrical data
8.3.3 Design situations
8.4 Design and construction considerations
8.5 Determination of earth and water pressures
8.5.1 Design earth pressures
8.5.2 At rest values of earth pressure
8.5.3 Limit values of earth pressure
8.5.4 Intermediate values of earth pressure
8.5.5 Compaction effects
8.5.6 Water pressures
8.6 Ultimate limit state design
8.6.1 General
8.6.2 Overall stability
8.6.3 Foundation failure of gravity walls
8.6.4 Rotational failure of embedded walls
8.6.5 Vertical failure of embedded walls
8.6.6 Structural failure
8.6.7 Failure by pull-out of anchors
8.7 Serviceability limit state
8.7.1 General
8.7.2 Displacements
8.7.3 Vibrations
8.7.4 Structural serviceability limit states
8.8 Anchorages
8.8.1 Scope
8.8.2 Anchorage design
8.8.3 Construction considerations
8.8.4 Anchorage testing
8.8.5 Assessment tests
8.8.6 Acceptance tests
8.8.7 Supervision of construction and monitoring
9 EMBANKMENTS AND SLOPES
9.1 General
9.2 Limit states
9.3 Actions and design situations
9.4 Design and construction considerations
9.5 Ultimate limit state design
9.5.1 Loss of overall stability
9.5.2 Deformations
9.5.3 Superficial erosion, internal erosion and
hydraulic uplift
9.5.4 Rockslides
9.5.5 Rockfalls
9.5.6 Creep
9.6 Serviceability limit state design
9.7 Monitoring
ANNEXES
ANNEX A: CHECK LIST FOR CONSTRUCTION SUPERVISION AND
PERFORMANCE MONITORING
A.1 Construction supervision
A.1.1 General items to be checked
A.1.2 Water flow and pore pressures
A.2 Performance monitoring
ANNEX B: A SAMPLE ANALYTICAL METHOD FOR BEARING
RESISTANCE CALCULATION
B.1 General
B.2 Undrained conditions
B.3 Drained conditions
ANNEX C: A SAMPLE SEMI-EMPIRICAL METHOD FOR BEARING
RESISTANCE ESTIMATION
ANNEX D: SAMPLE METHODS FOR SETTLEMENT EVALUATION
D.1 Stress-strain method
D.2 Adjusted elasticity method
D.3 Settlements without drainage
D.4 Settlements caused by consolidation
D.5 Time-settlement behaviour
ANNEX E: A SAMPLE METHOD FOR DERIVING PRESUMED BEARING
RESISTANCE FOR SPREAD FOUNDATIONS ON ROCK
ANNEX F: A SAMPLE CALCULATION MODEL FOR THE TENSILE
RESISTANCE OF INDIVIDUAL OR GROUPED PILES
ANNEX G: SAMPLE PROCEDURES TO DETERMINE LIMIT VALUES OF
EARTH PRESSURE
Applies to the geotechnical aspects of the design of buildings and civil engineering works.
| Committee |
TC 250
|
| DocumentType |
Standard
|
| PublisherName |
Comite Europeen de Normalisation
|
| Status |
Superseded
|
| Standards | Relationship |
| NBN ENV 1997-1 : 1995 | Identical |
| I.S. ENV 1997-1:1994 | Identical |
| NF ENV 1997-1 : 96 XP | Identical |
| NEN NVN ENV 1997-1 : 1995 | Identical |
| UNI ENV 1997-1 : 1997 | Identical |
| DD ENV 1997-1:1995 | Identical |
| NS ENV 1997-1 : 1ED 1997 | Identical |
| DIN V ENV 1997-1:1996-04 | Identical |
| UNE-ENV 1997-1:1999 | Identical |
| 99/100965 DC : DRAFT FEB 1999 | PREN 13493 - REQUIRED CHARACTERISTICS FOR GEOMEMBRANES AND GEOMEMBRANE-RELATED PRODUCTS USED IN SOLID WASTE STORAGES AND WASTE DISPOSAL SITES |
| 03/303958 DC : DRAFT APR 2003 | EN 14679 - EXECUTION OF SPECIAL GEOTECHNICAL WORKS - DEEP MIXING |
| 97/102975 DC : DRAFT APR 1997 | PREN 12812 - FALSEWORK - PERFORMANCE REQUIREMENTS AND GENERAL DESIGN |
| DD ENV 1997-2:2000 | Eurocode 7. Geotechnical design Design assisted by laboratory testing |
| PREN 14620-1 : DRAFT 2003 | DESIGN AND MANUFACTURE OF SITE BUILT, VERTICAL, CYLINDRICAL, FLAT-BOTTOMED STEEL TANKS FOR THE STORAGE OF REFRIGERATED, LIQUEFIED GASES WITH OPERATING TEMPERATURES BETWEEN -5 DEGREES C AND -165 DEGREES C - PART 1: GENERAL |
| I.S. ENV 1997-2:1999 | EUROCODE 7: GEOTECHNICAL DESIGN - PART 2: DESIGN ASSISTED BY LABORATORY TESTING |
| DIN EN 12715:2000-10 | Execution of special geotechnical work - Grouting; English version of DIN EN 12715 |
| BS EN 12715:2000 | Execution of special geotechnical work. Grouting |
| 98/109040 DC : DRAFT NOV 1998 | PREN 13362 - REQUIRED CHARACTERISTICS FOR GEOMEMBRANES AND GEOMEMBRANE-RELATED PRODUCTS USED IN THE CONSTRUCTION OF CANALS |
| 04/19988805 DC : DRAFT OCT 2004 | EN 15050 - PRECAST CONCRETE BRIDGE ELEMENTS |
| 02/103834 DC : DRAFT JUN 2002 | PREN 14475 - EXECUTION OF SPECIAL GEOTECHNICAL WORKS - REINFORCED FILL |
| 99/100963 DC : DRAFT FEB 1999 | PREN 13491 - REQUIRED CHARACTERISTICS FOR GEOMEMBRANES AND GEOMEMBRANE-RELATED PRODUCTS USED IN TUNNELS AND UNDERGROUND STRUCTURES |
| 04/19993011 DC : DRAFT JUN 2004 | BS EN 14904 - SURFACES FOR SPORTS AREAS - SPECIFICATION FOR INDOOR SURFACES FOR MULTI-SPORTS USE |
| DD ENV 1991-3:2000 | Eurocode 1. Basis of design and actions on structures Traffic loads on bridges (United Kingdom Application Document) |
| 99/100964 DC : DRAFT FEB 1999 | PREN 13492 - REQUIRED CHARACTERISTICS FOR GEOMEMBRANES AND GEOMEMBRANE-RELATED PRODUCTS USED IN THE CONSTRUCTION OF LIQUID WASTE DISPOSAL SITES OR TRANSFER STATIONS |
| DD ENV 1997-3:2000 | Eurocode 7. Geotechnical design Design assisted by fieldtesting |
| EN 13031-1:2001 | Greenhouses - Design and construction - Part 1: Commercial production greenhouses |
| EN 12715:2000 | Execution of special geotechnical work - Grouting |
| I.S. ENV 1997-3:1999 | EUROCODE 7: GEOTECHNICAL DESIGN - PART 3: DESIGN ASSISTED BY FIELDTESTING |
| I.S. ENV 1994-2:1998 | EUROCODE 4: DESIGN OF COMPOSITE STEEL AND CONCRETE STRUCTURES - PART 2: COMPOSITE BRIDGES |
| EN 12716:2001 | Execution of special geotechnical works - Jet grouting |
| I.S. EN 13031-1:2002 | GREENHOUSES: DESIGN AND CONSTRUCTION - PART 1: COMMERCIAL PRODUCTION GREENHOUSES |
| DIN 4094-1:2002-06 | SUBSOIL - FIELD INVESTIGATIONS - PART 1: CONE PENETRATION TESTS |
| DIN 4094-2:2003-05 | SUBSOIL - FIELD TESTING - PART 2: BOREHOLE DYNAMIC PROBING |
| 00/705761 DC : DRAFT FEB 2000 | PREN 13814 - FAIRGROUND AND AMUSEMENT PARK MACHINERY AND STRUCTURES - SAFETY |
| I.S. ENV 1993-5:1998 | EUROCODE 3: DESIGN OF STEEL STRUCTURES - PART 5: PILING |
| DIN EN 13814:2005-06 | FAIRGROUND AND AMUSEMENT PARK MACHINERY AND STRUCTURES - SAFETY |
| DIN EN 13031-1:2003-09 | GREENHOUSES - DESIGN AND CONSTRUCTION - PART 1: COMMERCIAL PRODUCTION GREENHOUSES |
| BS EN 12063:1999 | Execution of special geotechnical work. Sheet pile walls |
| BS EN 13031-1:2001 | Greenhouses. Design and construction Commercial production greenhouses |
| ENV 1993-5 : 1998 | EUROCODE 3: DESIGN OF STEEL STRUCTURES - PART 5: PILING |
| EN 13814:2004 | Fairground and amusement park machinery and structures - Safety |
| DIN 4094-3:2002-01 | SUBSOIL - FIELD TESTING - PART 3: DYNAMIC PROBING |
| 03/308533 DC : DRAFT JUNE 2003 | EN 14731 - EXECUTION OF SPECIAL GEOTECHNICAL WORKS - GROUP TREATMENT BY DEEP VIBRATION |
| I.S. EN 13814:2005 | FAIRGROUND AND AMUSEMENT PARK MACHINERY AND STRUCTURES - SAFETY |
| DD ENV 1991-2.4 : 1997 | EUROCODE 1: BASIS OF DESIGN AND ACTIONS ON STRUCTURES - PART 2-4: ACTIONS ON STRUCTURES - WIND ACTIONS (TOGETHER WITH UNITED KINGDOM NATIONAL APPLICATION DOCUMENT) |
| 03/105148 DC : DRAFT MAR 2003 | PREN 14620-1 - DESIGN AND MANUFACTURE OF SITE BUILT, VERTICAL, CYLINDRICAL, FLAT-BOTTOMED STEEL TANKS FOR THE STORAGE OF REFRIGERATED, LIQUEFIED GASES WITH OPERATING TEMPERATURES BETWEEN -5 DEGREES C AND -165 DEGREES C - PART 1: GENERAL |
| BS EN 12716:2001 | Execution of special geotechnical works. Jet grouting |
| I.S. EN 12716:2001 | EXECUTION OF SPECIAL GEOTECHNICAL WORKS - JET GROUTING |
| BS EN 13814:2004 | Fairground and amusement park machinery and structures. Safety |
| EN 12063:1999 | Execution of special geotechnical work - Sheet-pile walls |
| DIN EN 13738:2005-02 | GEOTEXTILES AND GEOTEXTILE-RELATED PRODUCTS - DETERMINATION OF PULLOUT RESISTANCE IN SOIL |
| I.S. EN 12063:1999 | EXECUTION OF SPECIAL GEOTECHNICAL WORK - SHEET-PILE WALLS |
| ISO 3898:2013 | Bases for design of structures — Names and symbols of physical quantities and generic quantities |
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