I.S. ENV 1997-3:1999
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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EUROCODE 7: GEOTECHNICAL DESIGN - PART 3: DESIGN ASSISTED BY FIELDTESTING
Hardcopy , PDF
09-21-2007
English
01-01-1999
For Harmonized Standards, check the EU site to confirm that the Standard is cited in the Official Journal.
Only cited Standards give presumption of conformance to New Approach Directives/Regulations.
FOREWORD
1 GENERAL
1.1 Scope
1.2 References
1.3 Distinction between Principles and Application Rules
1.4 Definitions
1.5 Symbols and units
1.6 The link between ENV 1997-1 and ENV 1997-3
2 PLANNING OF SITE INVESTIGATIONS
2.1 General
2.2 Definitions
2.3 Preliminary investigations for positioning of a
structure and preliminary design
2.4 Investigations for design and construction
2.5 Control Investigations
2.6 Reporting of site investigations
2.7 Evaluation of site investigations
3 CONE PENETRATION AND PIEZOCONE TESTS - CPT(U)
3.1 General
3.2 Definitions
3.3 Equipment
3.4 Test procedure
3.5 Interpretation of the results
3.6 Reporting of the results
3.7 Derived values of geotechnical parameters
4 PRESSUREMETER TEST (PMT)
4.1 General
4.2 Definitions
4.3 Equipment
4.4 Test procedure
4.5 Interpretation
4.6 Reporting the results
4.7 Derived values of geotechnical parameters
5 STANDARD PENETRATION TEST (SPT)
5.1 General
5.2 Definitions
5.3 Equipment
5.4 Test Procedure
5.5 Interpretation of the results
5.6 Reporting of results
5.7 Derived values of geotechnical parameters
6 DYNAMIC PROBING TEST (DP)
6.1 General
6.2 Definitions
6.3 Equipment
6.4 Test procedure
6.5 Interpretation of test results
6.6 Reporting of results
6.7 Derived values of geotechnical parameters
7 WEIGHT SOUNDING TEST (WST)
7.1 General
7.2 Definitions
7.3 Equipment
7.4 Test procedure
7.5 Interpretation of test results
7.6 Reporting of the test results
7.7 Derived values of geotechnical parameters
8 FIELD VANE TEST (FVT)
8.1 General
8.2 Definitions
8.3 Equipment
8.4 Test procedure
8.5 Interpretation of test results
8.6 Reporting of the results
8.7 Derived values of geotechnical parameters
9 FLAT DILATOMETER TEST (DMT)
9.1 General
9.2 Definitions
9.3 Equipment
9.4 Test procedure
9.5 Interpretation of the results
9.6 Reporting of the results
9.7 Derived values of geotechnical parameters
10 ROCK DILATOMETER TEST (RDT)
10.1 General
10.2 Definitions
10.3 Equipment
10.4 Test procedure
10.5 Interpretation of the results
10.6 Reporting of the results
10.7 Derived values of geotechnical parameters
11 PLATE LOADING TEST (PLT)
11.1 General
11.2 Definitions
11.3 Equipment
11.4 Test procedure
11.5 Interpretation of the results
11.6 Reporting of results
11.7 Derived values of geotechnical parameters
12 SOIL SAMPLING
12.1 General
12.2 Categories and concepts
12.3 Equipment
12.4 Sampling procedure
12.5 Reporting on boring and sampling
13 ROCK SAMPLING
13.1 General
13.2 Definitions
13.3 Equipment
13.4 Rotary sampling
13.5 Reporting of the core sampling operation
14 GROUNDWATER MEASUREMENTS IN SOILS AND ROCK
14.1 General
14.2 Definitions
14.3 Equipment
14.4 Test procedure
14.5 Interpretation of groundwater measurements
14.6 Reporting of groundwater measurements
14.7 Derived values of groundwater or pore pressures
ANNEXES
A - Example of a flow chart for the selection of
ground investigation methods in different phases
B.1 - CPT: example of derived values for the angle of
shearing resistance and drained Young's modulus
B.2 - CPT: example of a settlement calculation for
spread foundations
B.3 - CPT: example of a correlation between oedometer
modulus and cone resistance
B.4 - CPT: example of the calculation of the bearing
resistance of a single pile
C.1 - PMT: example of the calculation of the bearing
resistance of spread foundations
C.2 - PMT: example of the calculation of the settlements
of spread foundations
C.3 - PMT: example of calculations of the ultimate bearing
resistance of piles
D.1 - SPT: example of the energy correction factors
D.2 - SPT: examples of correlations between blow counts
and density indices
D.3 - SPT: example of derived values for the angle of
shearing resistance
D.4 - SPT: example of a settlement calculation of spread
foundations
E.1 - DP: example of derived values for the density index
E.2 - DP: example of derived values for the angle of
shearing resistance
E.3 - DP: example of derived values for the oedometer modulus
F - WST: example of derived values for the angle of shearing
resistance and drained Young's modulus
G - FVT: examples of correction factors for the undrained
shear strength
H - DMT: example of correlations between E[oed] and
DMT results
I.1 - PLT: example of derived values for the undrained
shear strength
I.2 - PLT: example of derived values for the plate
settlement modulus
I.3 - PLT: example of derived values for the coefficient
of subgrade reaction
I.4 - PLT: example of settlement calculations
J - Examples of sampling methods
K - Example of rock weathering classification
L - Guidelines for groundwater measurements
M - Bibliography
Applicable to the geotechnical aspects of the design of buildings and civil engineering works.
DocumentType |
Standard
|
Pages |
148
|
PublisherName |
National Standards Authority of Ireland
|
Status |
Superseded
|
SupersededBy |
Standards | Relationship |
ENV 1997-3 : DRAFT 1999 | Identical |
ENV 1997-1 : 1994 | EUROCODE 7: GEOTECHNICAL DESIGN - GENERAL RULES |
ENV 1991-1 : DRAFT 1994 | EUROCODE 1: BASIS OF DESIGN AND ACTIONS ON STRUCTURES - BASIS OF DESIGN |
ISO 3898:2013 | Bases for design of structures — Names and symbols of physical quantities and generic quantities |
DIN 4094:1990-12 | SOIL; EXPLORATION BY PENETRATION TESTS |
DIN V 1054-100:1996-04 | BAUGRUND - SICHERHEITSNACHWEISE IM ERD- UND GRUNDBAU - BERECHNUNG NACH DEM KONZEPT MIT TEILSICHERHEITSBEIWERTEN |
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