17 earthquake engineering-tr - university college …...earthquake engineering civil &...
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Earthquake Engineering
Civil & Environmental Engineering University College London
Earthquake Engineering
Dr Tiziana Rossetto
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Earthquake Engineering
Civil & Environmental Engineering University College London
Introduction
• In the past 3 centuries over 3 million people have died due to earthquakes and earthquake related disasters.
• The economic losses estimated for the period 1929-1950 are in excess of US$10 billion.
• 2/3 of the earths crust is seismically active, which means that about 1,000,000,000 people are living in areas of the world that are prone to earthquakes.
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Earthquake Engineering
Civil & Environmental Engineering University College London
IntroductionFor more developed countries the economic loss due to an earthquake can be enormous even if the death toll is fairly low (Coburn and Spence 1992):
e.g. Kobe Earthquake (Ms 7.0, Japan, 1995) killed 5,420 people but caused US$ 150 billion economic loss
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Earthquake Engineering
Civil & Environmental Engineering University College London
cost of damage per fatality
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Earthquake Engineering
Civil & Environmental Engineering University College London
Introduction
But cost is relative:
e.g. Managua earthquake (Ms 6.1, Nicaragua, 1972), caused 10,000 deaths and US$ 2 billion economic loss.
…..but This loss = 40% of GNP
For more developed countries the economic loss due to an earthquake can be enormous even if the death toll is fairly low (Coburn and Spence 1992):
e.g. Kobe Earthquake (Ms 7.0, Japan, 1995) killed 5,420 people but caused US$ 150 billion economic loss
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Earthquake Engineering
Civil & Environmental Engineering University College London
Introduction
What do we know?
• Earthquakes cannot be prevented nor accurately predicted.
• It is not ground shaking itself that causes life and economic loss but the collapse or damage of buildings and infrastructure that are too “weak” to resist the ground shaking.
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Earthquake Engineering
Civil & Environmental Engineering University College London
What is Earthquake Engineering?
The application of civil engineering to reduce life and economic losses due to
earthquakes, (i.e to mitigate seismic risk)
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Earthquake Engineering
Civil & Environmental Engineering University College London
What is Seismic Risk from the engineers’ perspective?
the probability of losses occurring due to earthquakes within the lifetime of a structure; these losses can include human lives, social and economic
disruption as well as material damage.
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Earthquake Engineering
Civil & Environmental Engineering University College London
What is Seismic Risk?
RISK = SEISMIC HAZARD x VULNERABILITY
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Earthquake Engineering
Civil & Environmental Engineering University College London
What is Seismic Risk?
RISK = SEISMIC HAZARD x VULNERABILITY
Probability of a potentially damaging earthquake effect occurring at the site of planned construction within its design life.
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Earthquake Engineering
Civil & Environmental Engineering University College London
What earthquake effects cause damage?
•Ground shaking
Bhuj E/q, India 2001 Loma Prieta, CA 1989
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Earthquake Engineering
Civil & Environmental Engineering University College London
•Ground shaking
What earthquake effects cause damage?
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Earthquake Engineering
Civil & Environmental Engineering University College London
•Ground shaking•Surface rupture
Chi Chi E/q, Taiwan
Hector Mines E/q, USA
What earthquake effects cause damage?
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Earthquake Engineering
Civil & Environmental Engineering University College London
•Ground shaking•Surface rupture•Landslides
What earthquake effects cause damage?
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Earthquake Engineering
Civil & Environmental Engineering University College London
•Ground shaking•Surface rupture•Landslides•Liquefaction
What earthquake effects cause damage?
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Earthquake Engineering
Civil & Environmental Engineering University College London
•Ground shaking•Surface rupture•Landslides•Liquefaction
What earthquake effects cause damage?
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Earthquake Engineering
Civil & Environmental Engineering University College London
•Ground shaking•Surface rupture•Landslides•Liquefaction•Tsunamis
What earthquake effects cause damage?
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Earthquake Engineering
Civil & Environmental Engineering University College London
What is Seismic Risk?is the probability of the occurrence of
damage in a building when exposed to a particular earthquake effect.
RISK = SEISMIC HAZARD x VULNERABILITY
Probability of a potentially damaging earthquake effect occurring at the site of planned construction within its design life.
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Earthquake Engineering
Civil & Environmental Engineering University College London
What is Seismic Risk?DETERMINED BY MAN: CAN BE REDUCED THROUGH SEISMIC
DESIGN
RISK = SEISMIC HAZARD x VULNERABILITY
DETERMINED BY NATURE: CANNOT BE REDUCED
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Earthquake Engineering
Civil & Environmental Engineering University College London
Seismic Hazard and Seismic Design
Design Problem: An earthquake usually constitutes the most severe loading to which most civil engineering structures might possibly be subjected, and yet in most parts of the world, even those that are highly seismic, there is a possibility that an earthquake may not occur during the life of the structure.
Note: Lateral loads imposed by winds = 1-3% of building weight.Lateral loads due to earthquakes = 25-30% of building weight.
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Earthquake Engineering
Civil & Environmental Engineering University College London
Seismic Hazard and Seismic DesignDesign Problem: An earthquake usually constitutes the most severe loading to which most civil engineering structures might possibly be subjected, and yet in most parts of the world, even those that are highly seismic, there is a possibility that an earthquake may not occur during the life of the structure.
Assessment Problem: Most buildings that exist have notbeen designed to seismic codes. Can they withstand the type of earthquake that might happen in their location? What will be the damage incurred if an earthquake does occur?
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Earthquake Engineering
Civil & Environmental Engineering University College London
Seismic Hazard and Seismic Design
Hence, engineers require seismic hazard assessments to provide not only a description of the likely seismic loads (ground shaking) to be experienced by an engineering structure, but also to attach probabilities of occurrence to these earthquake loads.
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Earthquake Engineering
Civil & Environmental Engineering University College London
How do earthquake measurements translate into earthquake design loads?
•Seismograms can be used directly as input to complicated dynamic inelastic time history finite element analyses of important buildings.
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Earthquake Engineering
Civil & Environmental Engineering University College London
How do earthquake measurements translate into earthquake design loads?
•Seismograms can be used directly as input to complicated dynamic inelastic time history finite element analyses of important buildings.
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Earthquake Engineering
Civil & Environmental Engineering University College London
How do earthquake measurements translate into earthquake design loads?
•Seismograms used directly as input to complicated dynamic inelastic time history finite element analyses of important buildings.
•Earthquake Acceleration Spectra and Peak Ground Acceleration.
•Spectral modal analysis methods•Equivalent lateral force methods
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Earthquake Engineering
Civil & Environmental Engineering University College London
Computation of Elastic Response Spectrum
Single degree of freedom
systems
Plot maximum response acceleration vs fundamental period
of SDOF
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Earthquake Engineering
Civil & Environmental Engineering University College London
Elastic and Inelastic Spectra
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Earthquake Engineering
Civil & Environmental Engineering University College London
Design Spectra (EC8)
~2.5.ag
Shape will be different for different soil
conditions. i.e. site amplification effects are
considered
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Earthquake Engineering
Civil & Environmental Engineering University College London
Code-type zonation map
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Earthquake Engineering
Civil & Environmental Engineering University College London
T1 T2 T3
T1T2
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Earthquake Engineering
Civil & Environmental Engineering University College London
Equivalent Lateral Load
V = C.W ( ~ F=m.a)
• I = Importance factor• Sa(T1) = spectral acceleration
for fundamental period, includes site effects
• q = behaviour factor, represents structure’s ability to dissipate energy
( ) qSIgTSaC ...1=
V
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Earthquake Engineering
Civil & Environmental Engineering University College London
Conventional Seismic DesignNormal building life assumed to = 50years
Ultimate limit state design: Design a building to resist an earthquake with a return period of 475yrs (i.e. the design loads will have a 10% probability of being exceeded in the structures life).
If a structure is very important (i.e. the consequences of its damage are severe) these loads will be increased: e.g. Nuclear structures designed to resist a 10,000 year return period event.
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Earthquake Engineering
Civil & Environmental Engineering University College London
Conventional Seismic DesignNormal building life assumed to = 50years
Ultimate limit state design: Design a building to resist an earthquake with a return period of 475yrs (i.e. the design loads will have a 10% probability of being exceeded in the structures life).
If we design for the seismic loads to be resisted by the building without damage (i.e. for the building to react elastically) the cost of construction would be prohibitive
So we design buildings to be damaged under earthquake loading
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Earthquake Engineering
Civil & Environmental Engineering University College London
Designing for Controlled DamageWe design buildings to be damaged and react inelastically: meaning they dissipate the same energy, but will undergo greater deformation during the event
δy δe δu
Displacement (δ)
Pi
Pe
Equal Energy Rule
Force (P)
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Earthquake Engineering
Civil & Environmental Engineering University College London
Designing for Controlled DamageWe design buildings to be damaged and react inelastically: meaning they dissipate the same energy, but will undergo greater deformation during the event
The location of the damaged areas is controlled to avoid catastrophic failure.
Simple design rules and capacity design
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Earthquake Engineering
Civil & Environmental Engineering University College London
Simple Design Criteria• Choose an adequate lateral load resisting system
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Earthquake Engineering
Civil & Environmental Engineering University College London
Adequate Lateral Load Resisting Systems
Concentrically braced frame
Eccentrically braced frames
Moment resisting frame:
• RC up to 5 floors
•Steel up to 2 floors
“fuse”
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Earthquake Engineering
Civil & Environmental Engineering University College London
Simple Design Criteria• Choose an adequate lateral load resisting system• Maintain regularity in plan and elevation (of stiffness and
mass distribution)
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Earthquake Engineering
Civil & Environmental Engineering University College London
Regularity in Plan
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Earthquake Engineering
Civil & Environmental Engineering University College London
Regularity in Elevation
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Earthquake Engineering
Civil & Environmental Engineering University College London
Regularity in Elevation
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Earthquake Engineering
Civil & Environmental Engineering University College London
Regularity in Elevation
Mass Irregularity
Stiffness Irregularity
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Earthquake Engineering
Civil & Environmental Engineering University College London
“Soft-storey” Failure
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Earthquake Engineering
Civil & Environmental Engineering University College London
“Soft-storey” Failure
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Earthquake Engineering
Civil & Environmental Engineering University College London
“Soft-storey” Failure
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Earthquake Engineering
Civil & Environmental Engineering University College London
Simple Design Criteria• Choose an adequate lateral load resisting system• Maintain regularity in plan and elevation (of stiffness and
mass distribution)• Ensure connection between structural elements
• Connecting and anchoring of reinforcement• Using appropriate materials
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Earthquake Engineering
Civil & Environmental Engineering University College London
Poor Connection
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Earthquake Engineering
Civil & Environmental Engineering University College London
Premature shear failure through inappropriate detailing
Fukae Viaduct, Kobe 1995
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Earthquake Engineering
Civil & Environmental Engineering University College London
Premature shear failure through inappropriate detailing
Fukae Viaduct, Kobe 1995
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Earthquake Engineering
Civil & Environmental Engineering University College London
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Earthquake Engineering
Civil & Environmental Engineering University College London
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Earthquake Engineering
Civil & Environmental Engineering University College London
Poor Connection
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Earthquake Engineering
Civil & Environmental Engineering University College London
Simple Design Criteria• Choose an adequate lateral load resisting system• Maintain regularity in plan and elevation (of stiffness and
mass distribution)• Ensure connection between structural elements• Avoid designing in locations of stress concentration
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Earthquake Engineering
Civil & Environmental Engineering University College London
Local Stress Points
Short column
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Earthquake Engineering
Civil & Environmental Engineering University College London
Short Column Failure
Short column
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Earthquake Engineering
Civil & Environmental Engineering University College London
Simple Design Criteria• Choose an adequate lateral load resisting system• Maintain regularity in plan and elevation (of stiffness and
mass distribution)• Ensure connection between structural elements• Avoid designing in locations of stress concentration• Consider dynamic response in determining spacing
between buildings, so as to avoid pounding
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Earthquake Engineering
Civil & Environmental Engineering University College London
Pounding
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Earthquake Engineering
Civil & Environmental Engineering University College London
Pounding
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Earthquake Engineering
Civil & Environmental Engineering University College London
Simple Design Criteria• Choose an adequate lateral load resisting system• Maintain regularity in plan and elevation (of stiffness and
mass distribution)• Ensure connection between structural elements• Avoid designing in locations of stress concentration• Consider dynamic response in determining spacing
between buildings, so as to avoid pounding• Adopt capacity design concepts to control the failure
mode
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Earthquake Engineering
Civil & Environmental Engineering University College London
Capacity Design
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Earthquake Engineering
Civil & Environmental Engineering University College London
Bad Design
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Earthquake Engineering
Civil & Environmental Engineering University College London
Bad Design
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Earthquake Engineering
Civil & Environmental Engineering University College London
Bad Design
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Earthquake Engineering
Civil & Environmental Engineering University College London
Capacity Design
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Earthquake Engineering
Civil & Environmental Engineering University College London
Simple Design Criteria• Choose an adequate lateral load resisting system• Maintain regularity in plan and elevation (of stiffness and
mass distribution)• Ensure connection between structural elements• Avoid designing in locations of stress concentration• Consider dynamic response in determining spacing
between buildings, so as to avoid pounding• Adopt capacity design concepts to control the failure
mode• Be aware of damage potential on non-structural elements
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Earthquake Engineering
Civil & Environmental Engineering University College London
Damage due to Non-Structural Elements
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Earthquake Engineering
Civil & Environmental Engineering University College London
Base-Isolation
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Earthquake Engineering
Civil & Environmental Engineering University College London
Base-Isolation
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Earthquake Engineering
Civil & Environmental Engineering University College London
Final RemarksDamage to buildings is the greatest cause of life loss, direct damage and business interruption in an earthquake.
New buildings should be designed considering earthquake loading with the consequence of their damage in mind during the design process.
Assess our existing structures for their earthquake resistance
Predict the likely loss and intervene with structural strengthening if the risk is too high.
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Earthquake Engineering
Civil & Environmental Engineering University College London
Evening Seminar7th February 2006 at 6pm
The October 8, Pakistan Earthquake: Effects and Relief
Presentation by EEFIT Team and Oxfam
Venue: Chadwick Lecture Theatre, Dept of Civil and Environmental Engineering, UCL
Open to AllRegister your interest with me: [email protected]