Design of Ground Anchors Use of New Ec7 Secyion 8
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Transcript of Design of Ground Anchors Use of New Ec7 Secyion 8
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DESIGN OF GROUND ANCHORS
– USE OF NEW SECTION 8
Eric R Farrell
AGL Consulting.
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Design of Anchors – Use of New Section 8:EC 7 2
Section 8 Anchors Anchor must have a free
length This presentation will cover
the design of grouted anchor
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ASSOCIATED STANDARDS
• EN1537:2013 Execution of special geotechnical work – Ground Anchors.
Note – A ‘grouted anchor’ in EN1997-1 is termed a ‘ground anchor’ in EN 1537 • EN ISO 22477-5 Geotechnical investigation and
testing-Testing of geotechnical structures-Part 5:Testing of pre-stressed ground anchors (only in draft form at present)
Design of Anchors – Use of New Section 8:EC 7 3
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Design of Anchors – Use of New Section 8:EC 7 4
= 18kN/m3 above WL
= 20kN/m3 below WL
ck' = 0
k' = 38o
E' = 50,000 kPa
' = 0.2
6m
Lake (water)
DESIGN EXAMPLE – THE DESIGN ISSUE
DESIGN ANCHOR TO SUPPORT SHEET PILED QUAY WALL
Sandy Gravel
Design Approach 1 used Design is based on 3m anchor spacing.
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Design of Anchors – Use of New Section 8:EC 7 5
= 18kN/m3 above WL
= 20kN/m3 below WL
ck' = 0
k' = 38o
E' = 50000 kPa
' = 0.2
Anchor prestressed at this stage
2m (with overdig)
1m
CONSTRUCTION STAGES
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Design of Anchors – Use of New Section 8:EC 7 6
= 18kN/m3 above WL
= 20kN/m3 below WL
ck' = 0
k' = 38o
E' = 50000 kPa
' = 0.2
6.5m with overdig
Surcharge of 20kPa
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Design of Anchors – Use of New Section 8:EC 7 7
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Design of Anchors – Use of New Section 8:EC 7 8
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FUNDAMENTAL DESIGN REQUIREMENTS
The design of the anchors must consider:-
Ultimate Limit States (ULS) and Serviceability Limit States (SLS) of the anchor,
ULS and SLS of the supported structure.
Prestress forces and the effect of prestress forces, where relevant.
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Ultimate limit state (ULS) design force to be resisted by the anchors
EULS,d ≤ RULS;d Eq. 8.1
where EULS,d = max(FULS,d; FServ,d) Eq. 8.2 and FServ,d = ServFServ,k Eq. 8.3
RULS;d = Design value of the resistance of an anchor complying with ULS criteria EULS,d = ULS design force to be resisted by the anchor FULS,d = Design value of the force required to prevent any ULS in the supported structure. FServ,d = design value of the maximum anchor force (expected within the design life of the anchor), including effect of lock off load, and sufficient to prevent a SLS in the supported structure. Serv = partial factor
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Serviceability Limit State
FServ,k ≤ RSLS;d Eq.8.4 FServ,k = characteristic value of the maximum anchor force (expected within the design life of the anchor), including effect of lock off load, and sufficient to prevent a SLS in the supported structure. RSLS;d = design value of the resistance of an anchor complying with SLS criteria Note, assumes partial factor of unity
Design of Anchors – Use of New Section 8:EC 7 11
WHERE REQUIRED IN THE NA
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Note:- RULS;d and, where required RSLS;d
must be determined/validated by anchor tests.
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Geotechnical ULS resistance of anchor
RULS;m = min{Rm(aULS or kl;ULS) and PP} Eq. 8.5
RULS;k = (RULS;m)𝑚𝑖𝑛
ULS Eq. 8.6
PP = Proof load RULS,m is the measured value of the resistance of an anchor complying with ULS (RULS,m)min is the lowest value of RULS;m measured from a number of investigation or suitability tests (n), for each distinct ground condition RULS;k is the characteristic value of the resistance of an anchor complying with ULS. aULS is the creep rate kl;ULS is the load loss
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Geotechnical ULS resistance of anchor continued
RULS;d = RULS;k
γa;ULS Eq. 8.6
RULS,d is the design value of the resistance of an anchor complying with ULS
a;ULS is a partial factor
Design of Anchors – Use of New Section 8:EC 7
14
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Geotechnical SLS resistance of anchor (where required)
RSLS;m = min{Rm(aSLS or kl;SLS) and PP } Eq. 8.8 RSLS;k = (RSLS;m)min Eq. 8.9
RSLS,m is the measured value of the resistance of an anchor complying with SLS (RSLS,m)min is the lowest value of RSLS;m measured from a number of investigation or suitability tests (n), for each distinct ground condition RSLS;k is the characteristic value of the resistance of an anchor complying with SLS. aSLS is the creep rate kl;SLS is the load loss
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Geotechnical SLS resistance of anchor continued
RSLS;d = RSLS;k
γa;SLS Eq. 8.10
RSLS,d is the design value of the resistance of an anchor complying with ULS
a;SLS is a partial factor
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FULS;d
FServ;k
EULS;d
Free anchor length
RULS;d
and where required RSLS;d
Free anchor/tendon free length – Requirements of EN 1537
Design of Anchors – Use of New Section 8:EC 7 17
PARAMETERS REQUIRED FROM ANCHOR DESIGN
Anchor required to satisfy the resistance values
SUMMARY
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Design of Anchors – Use of New Section 8:EC 7 18
Limit equilibrium analysis
Finite element analysis without/with initial prestress (lock-off) of 60kN/m
Design Situation L (m) Anchor force kN/m
Max. BM kNm/m
L (m)
Anchor force kN/m
Max. BM kNm/m
Characteristic actions and soil parameters, no overdig
7.16 52.5/66* 66.4 7.2 67.7/78.9 72.83/67.5
Characteristic actions and soil parameters, with overdig
7.74 58.5/73* 83.0 7.8 78.6/77.4 79.6/80.1
DA1.C1 7.76 82.0/102.5* 115.3 8.5 101.9/123.4 88.3/87.6
DA1.C2 (Q=1.3) 8.5 90.3/112.9* 135.6 8.5 121.2/128.8 127.3/126.9
DA1.C2 (Q=1.0) 8.4 81.7/102* 125.2 8.5 107.6/115.0 114.7/113.9
Length 8.5m using char value with no overdig
8.5 64.7/75.23 55.4/39.5
*25% added for arching
FULS,d
FServ,k
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FULS;d = 128.8 kN/m (386 kN)
F𝑆𝑒𝑟𝑣;𝑘= 75.2 kN/m ( 225 kN)
EULS;d=128.8 kN/m ( 386 kN)
Note:- 1.35x75.2=101.52kN/m
Free anchor length = 5m
386 kN ≤ RULS;d
and where required 225 kN ≤ RSLS;d
Free anchor length > 5m
Design of Anchors – Use of New Section 8:EC 7 19
PARAMETERS FOR ANCHOR DESIGN – assuming 3m spacing
Anchor required to satisfy the resistance values
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Design of Anchors – Use of New Section 8:EC 7 20
ANCHOR TESTING
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Design of Anchors – Use of New Section 8:EC 7 21
ANCHOR DESIGN/TESTING
Preliminary estimation of bonded length based on ground conditions and geotechnical parameters
Investigation tests
Suitability tests
Acceptance tests
Not part of EC7:Sec 8
EN ISO 22477-5 When available
Number of Investigation/Suitability tests to be set in NA.
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Design of Anchors – Use of New Section 8:EC 7 22
Test Proof Load
Investigation tests
-Not on working anchor -Normally taken to failure of bonded length/ground -may require larger structural element
Eq. 8.12 PP ≥ ξULS x a;ULS x EULS,d
Suitability test -On working anchor -taken to load that verifies RULS,d -PP comes from Eqs, 8.1, 8.6 & 8.7
Eq. 8.12 PP≥ ξULS x a;ULS x EULS,d
Acceptability tests
-Must be carried out on all anchors - a,acc;ULS and a,acc;SLS from Table A.20
Eq. 8.13 PP ≥ a,acc;ULS x EULS,d
or Eq. 8.14 PP ≥ a,acc;SLS x FServ,k
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Design of Anchors – Use of New Section 8:EC 7 23
kN/m kN
@
3m
FServ,k Characteristic value of the maximum anchor force, including effect of lock-off load, and sufficient to prevent a SLS in the structure.
75 225
FULS;d Design value of the force required to prevent any ULS in the supported structure
128.8 386
FServ,d Eq.8.3 Serv =1.35 from Table A.18 101.3 304
EULS,d Eq. 8.2 128.8 386
Po Lock-off load, taken as about 80% of FServ,k. 60 180
PP Proof load, Suitability tests (PP≥ ξULS x a;ULS x EULS,d …… Eq 8.12) ξULS = 1.0 (Table A.20) a;ULS = 1.1 (Table A.19)
142 426
PP Proof load, Acceptability tests PP ≥ a,acc;ULS x EULS,d Eq. 8.13 (Table A.20) or PP ≥ a,acc;SLS x FServ,k Eq. 8.14 (Table A.20)
142
75
426
225
Taking 3m spacing of anchors
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Summary (using default values) Anchor spacing of 3m
Preliminary estimate of bond length (NOT COVERED IN EUROCODE) • Hole dia = 0.25m
• sv'ave = 3*18+7*10 = 74 kPa and taking K value =2
• L = 426/(2x74xTan 38x3.1416x0.25)= 4.7m
• Investigation tests – Load to be taken to at least 426kN.
• Suitability tests on selected anchors, load to be taken to 426kN
• Acceptability tests (on all anchors), load to be taken to 426kN ????
• These tests are required to validate that the anchors have the required RULS,d and, if specified in the NA, RSLS,d
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Measuring RULS,m and RSLS,m of an anchor (draft ISO/DIS 22477-5)
Method 1 Method 2 Method 3
Type of loading Cycle loading Cycle loading In steps
Rest periods Maintained loads Maintained deflection Maintained load
Measurements
Tendon head displacement vs applied load at end of each cycle
Load-loss vs time at the highest load of each cycle
Anchor head displacement vs anchor load at the beginning and end of each load step.,
Tendon head displacement vs time
k1 versus anchor load Anchor head displacement vs time for each load step.
a1 versus anchor load a3 versus anchor load or bond load, if possible.
Displacement vs load for all cycles
RULS,m Currently a1=2mm Load loss ≤ 5% at PP or displacement ≤ 5% De over log cycle of time (from BS8081)
When plot of a3 vs load, is asymptote or a3 =5mm
RSLS,m Not defined Load loss ≤ 1%at PP or rate of displacement should
reduce to 1% De over log cycle of time (from BS8081)
Pc (from as vs load, end of pseudo linear portion)
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Structural Design
EULS,d ≤ Rt;d
i.e 386kN ≤ Rt;d Eq 8.11
where EULS,d = Ultimate limit state design force to be
resisted by the anchor.
Rt;d = Design resistance of the structural element
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Select :- 40mm dia. GEWI bar Grade 500/600 Nominal dia. = 40mm Dia. over threads = 45mm Area = 1257 mm2 Ultimate strength = 754kN (fult = 600N/mm2) Yield strength = 629kN (fy = 500N/mm2) d) Requirements of EC2-1-1:2004 (EC2Pt1.1) requirements Irish partial factors s= 1.15 - Table 2.1N Cl 2.4.2.4(1)
Cl 3.3.6 (6) p44 𝑓𝑝𝑑 =𝑓𝑝0,1𝑘
𝛾𝑠
where fpd = design value of the steel stress Fp0,1k = 0.1% proof stress for prestressing steel s = partial factor Therefore Ftg,Rd = 629/1.15 = 547kN ≥ EULS,d therefore OK
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Design of Anchors – Use of New Section 8:EC 7 28
Cl 8.5.4 (2)P of EN 1997-1:2004 refers to 5.10.2.1 from EN 1992-1-1:2005 Cl 5.10.2.1(2)P - overstressing to 0.95fy is permitted if the force in the jack can be measured to an accuracy of ±5% PP = 426kN (=1.1xEULS,d) Therefore PP ≤ 0.95*629 = 597 kN > 426kN therefore OK
STRUCTURAL REQUIREMENT FOR PROOF TESTING
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Significant of changes
• The new proposals presents a rational design method for anchors
• The current anchor testing practices in many countries will required modification.
• The introduction of FServ,k is relatively novel within the Eurocode system.
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Comparison with present system
• Current practice in UK & Ireland is to use BS8081
• Design is based on ‘working’ load Tw
• No proper definition of Tw is given (Tw can be zero in some uplift situation, for example)
• Design of anchors to BS8081 does not consider ULS explicitly.
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Acknowledgements
• Members of SC7/EG1 on Anchors
• Colleagues at AGL Consulting
• Brian Simpson and Georgios Katsigiannis for invitation
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THANK YOU