structural eurocodes en 1990 - basis of structural design€¦ · en 1991: eurocode 1 action on...
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RUHR-UNIVERSITÄT BOCHUM
Prof. Dr.-Ing. Rüdiger HöfferRuhr-Universität Bochum, Institute of Structural Engineering, GermanyRegistered Test Engineer for Structural Design, IRS DüsseldorfMember of TC 250 SC1 and the German Mirror Committee
Prof. Dr.-Ing. habil. Hans-Jürgen NiemannRuhr-Universität Bochum, Germany Niemann & Partner Consulting Engineers, Bochum
Structural Eurocodes
EN 1990 - Basis of Structural Design
ECEC – European Council of Engineer‘s ChambersCPD‐Lectures at 15th of May, 2015, Belgrade/SRB
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Structural Eurocodes
EN 1991: Eurocode 1Action on Structures
EN 1991-1.1Densities, self weight
and imposed loads
EN 1991-1.2Actions on structures exposed to
fire
EN 1991-1.4Wind loads
EN 1991-1.5Thermal actions
EN 1991-4Actions on silos and
tanks
EN 1991-2Traffic
loads on bridges
EN 1991-1.3Snow loads
EN 1991-3Actions
induced by cranes
machinery
EN 1991-1.6Actions during
execution
EN 1991-1.7Accidental
actions due to impact and explosions
EN 1992: Eurocode 2 (EC2)Design of Concrete Structures
EN 1992-1.1Common rules for buildings and civil engineering structures
EN 1992-1.2Structural fire design
EN 1992-2Bridges
EN 1992-3Liquid retaining and containment structures
EN 206-1: Concrete Part 1Specification, performance, production and conformity
EN 13670-1Execution of concrete structures
EN 197-1: Cement Part 1Composition, specification and
conformity criteria for common cements
EN 12620Aggregates for concrete
EN 934Admixtures for concrete, grout and mortars
EN 450Fly ash for concrete
EN 1008Mixing waters
EN 197-2: Cement Part 2Conformity evaluation
EN 1097Test for material and physical
properties of aggregates
EN 480Admixtures for concrete, grout
and mortars-testmethods
EN 451Methods of
testing fly ash
EN 196Methods of testing cement
EN 10080Reinforcing steel
EN 10138Pre-stressing steel
EN 447Grout for pre-stressing steel
EN 523Steel for sheaths and prestandard tendons
EN 1997: Eurocode 7Geotechnical data
EN 1997-1General Rules
EN 1997-2Design assisted by laboratory testing
EN 1997-3Design assisted by field testing
EN 1990: EurocodeBasis of Structural Design
Structural safety
Loading
Design and
detailing
Concrete products
Foundations
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Eurocode 1: Actions on Structures
EN 1991-1-1 General actions – Desities, self-weight, imposedloads for buildings : 2002 + Correction AC:2009
EN 1991-1-3 General actions – Snow loads : 2003 + AC:2009
EN 1991-1-4 General actions – Wind actions : 2005(E)Amendment A1:2010Correction AC:2010
EN 1991-1-5 General actions – Thermal actions : 2003Correction AC:2009
EN 1991-1-6 General actions, Actions during execution : 2005Correction AC:2008
EN 1991-1-7 General actions – Accidental actions : 2006 Correction AC:2010
EN 1991-2 Traffic loads on Bridges : 2004EN 1991-3 Actions induced by cranes and machinery : 2006EN 1991-4 General actions – Silos and tanks : 2006
EN 1991-1-2 General actions – Actions due to fire : 2003
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Risks in Civil Engineering
Measures of Reliability in a Probabilistic Concept
Reliability Verification in EN 1990
Partial Factor Concept in EN 1990
Limit States
Overview
Ultimate Limit State – ULS
Serviceability Limit State - SLS
Conclusions
Actions on Structures – EN 1991
Objectives of EN 1990
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EarthquakeStorm
WaterFire
Risks in Civil Engineering
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Risks in Civil Engineering
t)tTttT(P
)t(h LLt
TL – design life, t - time
Failure Rate:
t
failure rate ht(t)
I II IIIt
t(t
I II III
II:extreme load effects
I: construction defects
III:deterioration
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fE(E), fR(R)
action effect E
resistance R
failure domainZ < 0
Pf = P(Z < 0)
E, R
ZmZ
mE mR
safety zone: Z = R – Ewith mean mZ, stand. dev. Z
survival: Z > 0; failure: Z 0
Measures of Reliability
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fE(E), fR(R)
action effect E
resistance R
failure domainZ < 0
Pf = P(Z < 0)
E, R
ZmZ
mE mR
safety zone: Z = R – Ewith mean mZ, stand. dev. Z
survival: Z > 0; failure: Z 0
probability of failure PfPf = P(Z 0)
Measures of Reliability
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fE(E), fR(R)
action effect E
resistance R
failure domainZ < 0
Pf = P(Z < 0)
E, R
ZmZ
mE mR
safety zone: Z = R – Ewith mean mZ, stand. dev. Z
survival: Z > 0; failure: Z 0
probability of failure PfPf = P(Z 0)
reliability index mZ = Z
Measures of Reliability
A reliability index of = 0 corresponds to a failure probability of Pf = 0.5! 9/34
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Measures of Reliability
failure domainZ < 0
Pf = P(Z < 0)
ZmZ
failure domainZ < 0
Pf = P(Z < 0)
ZmZ
The reliability index is applied in EN 1990 for reliability verifications. It is related to the probability of failure, Pf, by
Pf = (- )
where is the cumulative probability function of the Gaussian distribution
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Reliability Verification in EN 1990
Design values of Action Effect, Ed and Resistance, Rd
Given are: target reliability index
mean resistance mR standard deviation R
mean action effect mE standard deviation E
design requirement:mZ = Z
Replacing Z by E and R: mR – mE = (RR - EE)where are linear weight factors with ranges:-1 E < 00 R 1
Design verification using design values Ed and Rd:
mR - RR = mE - EE
Rd = mR - RR Ed = mE - EE11/34
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Target values of Reliability
The target values of reliability are operational, indicative numbers
Reliability Verification in EN 1990
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Reliability Differentiation in EN 1990
Reliability Verification in EN 1990
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Reliability Verification in EN 1990
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Partial Factor Concept in EN 1990
tensile membrane force n at the windward meridian
Actions: self weight g, wind load wResistance: yield strength of the reinforcement Ass
Global safety factor tot applied to design the shell for tensile strength:
tot (nw - ng) Ass
Self-weight is compressive, it diminishes the tensile wind force: The shell cannot carry totw when designed with a global factor.
Such a goal would be achieved by the following design equation:
wind w
self-weight g
tot nw - ng Ass 15/34
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5.11.1965
In a strong gale, three Cooling Towers at the Ferrybridge Power Station, UK, collapse due to tensile failure of the reinforcement at the windward side
(1) Small shell bending stiffnessdue to Single layer reinforcement,low natural frequencies, increase ofresonant response to turbulence;
2) Load amplification due to flowInterference;
(3) Unified safety factor instead ofpartial concept
Principal failure causes
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Partial Factor Concept in EN 1990
Concept of partial safety factors
w nw - G ng Ass/M
VGB-BTR 2005: 1,6 nw – 1,0 ng Ass/1,15
The shell is now designed to carry 1,6-times the nominal wind load against 1/1,15 times the nominal tensile strength.
tensile membrane force n at the windward meridian
wind w
self-weight g
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Partial Factor Concept in EN 1990
EN 1990 does not apply directly the design values but utilises the partial factor design consisting of the following steps:
(1) Characteristic values of the basic variables actions Fk, and of the material properties Xk are introduced.
Characteristic values are typically:- for variable actions Q: Qk is the 0,98-quantile of the yearly extremes;- for permanent actions G: Gk is the mean value;- for accidental actions A: Ad is a nominal value used as design value;- for strength of materials X: Xk is the 5%-quantile.
(2) Design values of actions F are specified by using partial load factors F:
Fd = FFk for a leading action, orFd = FFk for an accompanying action;
Design values of material properties X are specified by partial material factors m : Xd = Xk / m
(3) The design values of action effect and resistance are calculated as
Ed = E{FFk; FFk } Rd = R{Xk/m} 18/34
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load effect E resistance R
probability density
E, R
98% 5%
F M
fE(E), fR(R)
Partial Factor Concept in EN 1990
Ek = E(Fk)
Ed = E(FFk)
Rk = R(Xk)
Rd = R(Xk/M)
Ed Rd
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Summary of Verification Procedure
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Partial Factor Concept in EN 1990
The factor , covers the following situations:- the combination value of a variable action 0Qk- the frequent value of a variable action 1Qk- the quasi-permanent value of a variable action 2Qk
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If several variable actions have to be considered, the combination of actions consists of the leading action Qk1 and the accompanying actions Qkj, where is the factor for accompanying actions, 1
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Partial Factor Concept in EN 1990
Variable loads and related -factors
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Partial Factor Concept in EN 1990
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source unknown
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Limit States
Ultimate Limit State – ULS
Serviceability Limit State – SLS
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ULS in EN 1990
Limit States: Ultimate Limit States
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FAT load combinations are given in the design codes EN1992 – EN1996
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Overturning of aRetaining Wall
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Ultimate Limit States: Static Equilibrium
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Static Equilibrium Limit States
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1,10 0,90 1,50 / 0 1,50 / 0
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Structural Failure Limit States
1,35 1,00 1,50 1,50
Note regarding permanent actions resulting from one source:
The partial factor 1,35 applies for all actions originating from self-weight if the resultingtotal effect is unfavourable. Similarly, inf = 1.00 is valid if the resulting total effect isfavourable. This also applies if different materials are involved.
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Structural Failure Limit States
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Structural Failure Limit States
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Vertical Deflections
Horizontal Displacements
Serviceability Limit States
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Serviceability Limit States
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Design working lifeDefinition in EN 1990
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Design working life
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Design working life
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design workinglife
mean lfetime = 0