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One-Day Technology Transfer Event

The theory and practice of

PERFORMANCE-BASED DESIGN

THE FUTURE OF EARTHQUAKE ENGINEERING

Bangkok, Thailand, 5 June 2014, 9:00 AM – 5:00 PM

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Performance-Based Design Seminar: Manila, Philippines, 7 November 2014, 8:00 AM – 4:00 PM

Hands-on Training: Manila, Philippines, 8 November 2014, 8:00 AM – 4:00 PM

Registration:
$125 per person - Regular
$100 per person - Filipino Engineers (Non-ASEP Member)
$90 per person - ACECOMS Member
$80 per person - Association of Structural Engineers of the Philippines Inc. (ASEP)
$50 per person - Students
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  • Association of Structural Engineers of the Philippines Inc. (ASEP)
  • The Engineering Institution of Thailand (EIT)
  • Council of Engineers of Thailand (COE)
  • Society of Structural Engineers Sri Lanka (SSS)
  • Myanmar Engineering Council (MENC)
  • Myanmar Engineering Society (MES)
  • Myanmar Earthquake Committee (MEC)
  • Bangladesh Society of Structural Engineers (BSSE)
  • Cambodian Society of Civil Engineers (CSCE)
  • Association of Lao Architects and Civil Engineers (ALACE)
  • The Institution of Engineers Singapore (IES)
  • Nepal Engineering Council (NEC)
  • Board of Engineers Malaysia (BEM)
  • Indonesian Building Engineers Association (BEA)
  • Others
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Registration fee includes the hands-on training, refreshment breaks and lunch

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Luncheon and refreshment breaks

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Special discount for ACECOMS, Affiliate Members, and Registered CSI Software Users

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A SEMINAR FOR EVERY PRACTICING ENGINEER - BRIDGING THE GAP BETWEEN RESEARCH AND PRACTICE

In this technology-packed seminar, keynote speaker Ashraf Habibullah, CSI Founder, President and CEO will present the theory and practical application of nonlinear analysis and performance-based design in terms and analogies that are very familiar to the practicing structural engineer. The seminar will address many fundamental questions, such as:

The seminar will cover topics related to:

Nonlinear Theory

Material and geometric nonlinearity ~ Steel and Concrete behavior in the nonlinear range ~ P-delta and large displacements ~ Yielding and energy dissipation ~ History dependence ~ Ductile and brittle behavior ~ Ductile limit and strength loss ~ Elastic and plastic energy ~ Cyclic stiffness and strength degradation, and fatigue ~ Hysteresis loops and time-energy diagrams ~ Redundancy and resilience ~ Strength based design and deformation based design ~ Problems of design by analysis ~ Capacity design and sacrificial elements ~ Collapse mechanisms ~ Sustained and cyclic loads

Nonlinear Modeling

Material models, moment, axial and shear hinges FEMA hinges ~ Rusty hinge model ~ Moment axial force interaction ~ Fiber hinge models for complex shapes ~ Multi layered nonlinear shell model ~ Multi linear elastic and plastic behavior ~ Viscous dampers~ Base isolation energy dissipating models ~ Types of hysteresis loops - kinetic, isotropic, Takeda and pivot ~ Special considerations for tall building

Nonlinear Analysis Techniques Performance Based Design

The FNA time history analysis method and the power of Ritz vectors ~ Step by step nonlinear time history analysis ~ Large deformation and P-delta effects ~ Modal and Rayleigh damping ~ Nonlinear events and element state determination ~ Unloading events, redistribution and solution complications ~ Requirements of ASCE41Pushover analysis and limitations~ Force controlled loading and displacement controlled loading ~ Badly behaved displacements (snap-back and snap-through) ~ Non-uniqueness of static solutions, uniqueness of dynamics ~ Acceleration Displacement Response Spectrum (ADRS) Push over curve and target displacement Equivalent linearization and displacement modification methods ~ Performance measures and performance levels ~ Demand/capacity ratio and acceptance criteria ~ Soil-structure interaction ~

Nonlinear Applications in Structural Engineering

Buckling restrained braces ~ Eccentrically braced systems ~ Base isolation systems ~ Reduced beam sections ~ Panel zone plasticity ~ Foundation uplift and structural pounding ~ Long term creep and shrinkage ~ Effects of construction sequence loading ~ Nonlinear dampers and deflection control ~ Tension only bracing systems ~ Cable supported structures

About Ashraf Habibullah, S.E.

Ashraf Habibullah, Registered Civil and Structural Engineer, is President and CEO of Computers and Structures, Inc. Ashraf graduated from the University of California at Berkeley in 1970 with a master's degree in structural engineering. He founded CSI in 1975. Today, CSI is recognized globally as the pioneering leader in the development of software tools for structural and earthquake engineering. The software is used by thousands of engineering firms in over 160 countries for the design of major projects, including the One World Trade Center in New York, the Burj-e-Khalifa in Dubai, the 2008 Olympics “Bird’s Nest” Stadium in Beijing and the Centenario Bridge over the Panama Canal. CSI products are also recognized as the standard tools for research and education worldwide and CSI has donated software to thousands of universities for teaching purposes. Through these donations, CSI has helped to ensure that the technology necessary to produce seismically-sound structures is available throughout the world. Ashraf has led the development of CSI's products for nearly four decades.