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CALTRANS SEISMIC DESIGN CRITERIA Version 1.7 November 2012

CALTRANS SEISMIC DESIGN CRITERIA Version 1.7 November 2012. Comments on the Response Spectrum Analysis Method by Ed Wilson SAB Meeting on August 28, 2013 edwilson.org To See Book on Web Site. Summery of Lecture Topics Why do most Engineers have Trouble with Dynamics?

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CALTRANS SEISMIC DESIGN CRITERIA Version 1.7 November 2012

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  1. CALTRANSSEISMIC DESIGN CRITERIAVersion 1.7 November 2012 Comments on the Response Spectrum Analysis Method by Ed Wilson SAB Meeting on August 28, 2013 edwilson.org To See Book on Web Site

  2. Summery of Lecture Topics • Why do most Engineers have Trouble with Dynamics? • Taught by people who love math – No physical examples • Who invented the Response Spectrum Method? • Ray Clough and I did ? – by putting it into my computer program • Application by CalTrans to “Ordinary Standard Structures” • Why 30 ? Why reference to Transverse & Longitudinal directions • Physical behavior of Skew Bridges – Failure Mode • 5 Advice to CalTrans

  3. Who Developed the Approximate Response Spectrum Method of Seismic Analysis of Bridges and other Structures? • 1. Fifty years ago there were only digital acceleration records for 3 earthquakes. • 2. Building codes gave design spectra for a one degree of freedom systems with no guidance of how to combine the response of of the higher modes. • At the suggestion of Ray Clough, I programmed the square root of the sum of the square of the modal values for displacements and member forces. However, I required the user to manually combine the results from the two orthogonal spectra. Users demanded that I modify my programs to automatically combine the two directions. I refused because there was no theoretical justification. • The user then modify my programs by using the 100%+30% or 100%+40% rules. • Starting in 1981 Der Kiureghian and I published papers showing that the CQC method should be used be used for combining modal responses for each spectrum and the two orthogonal spectra be combined by the SRSS method. • We now have Thousands or of 3D earthquake records from hundred of seismic events. Therefore, why not use Nonlinear Time-History Analyses that SATISFIES FORCE EQUILIBREUM.

  4. Torsion or Mode 1, 2 or Mode 3

  5. Nonlinear Failure Mode For Skew Bridges F(t) F(t) Abutment ForceActing on Bridge Tensional Failure u(t) Contact at Right Abutment u(t) Tensional Failure F(t) Abutment ForceActing on Bridge Contact at Left Abutment

  6. Possible Torsional Failure Mode Design Joint Connectors for Joint Shear Forces?

  7. Use a Global Modal for all Analyses

  8. Seismic Analysis Advice by Ed Wilson • All Bridges are Three-Dimensional and their Dynamic Behavior is governed by the Mass and Stiffness Properties of the structure. The Longitudinal and Transverse directions are geometric properties. All Structures have Torsional Modes of Vibrations. • The Response Spectrum Analysis Methodis a very approximate method of seismic analysis which only produces positive values of displacements and member forces which are not in equilibrium. Demand / Capacity Ratios have Very Large Errors • A structural engineer may take several days to prepare and verify a linear SAP2000 model of an Ordinary Standard Bridge. It would take less than a day to add Nonlinear Gap Elements to model the joints. If a family of 3D earthquake motions are specified, the program will automatically summarize the maximum demand- capacity ratios and the time they occur in a few minutes of computer time.

  9. Convince Yourself with a simple test problem Select an existing Sap 2000 model of a Ordinary Standard Bridge with several different spans – both straight and curved. Select one earthquake ground acceleration record to be used as the input loading which is approximately 20 seconds long. Create a spectrum from the selected earthquake ground acceleration record. Using a number of modes that captures a least 90 percent of the mass in all three directions. At a 45 degree angle, Run a Linear Time History Analysis and a Response Spectrum Analysis. Compare Demand Capacity Ratios for both SAP 2000 analysis for all members. You decide if the Approximate RSA results are in good agreement with the Linear time History Results.

  10. Educational Priorities of an Old Professor on Seismic Analysis of Structures Convince Engineers that the Response Spectrum Method Produces very Poor Results Method is only exact for single degree of freedom systems It produces only positive numbers for Displacements and Member Forces. Results are maximum probable values and occur at an “Unknown Time” Short and Long Duration earthquakes are treated the same using “Design Spectra” Demand/Capacity Ratios are always “Over Conservative” for most Members. The Engineer does not gain insight into the “Dynamic Behavior of the Structure” Results are not in equilibrium. More modes and 3D analysis will cause more errors. Nonlinear Spectra Analysis is “Smoke and Mirrors” – Forget it

  11. Convince Engineers that it is easy to conduct “Linear Dynamic Response Analysis” It is a simple extension of Static Analysis – just add mass and time dependent loads Static and Dynamic Equilibrium is satisfied at all points in time if all modes are included Errors in the results can be estimated automatically if modes are truncated Time-dependent plots and animation are impressive and fun to produce Capacity/Demand Ratios are accurate and a function of time – summarized by program. Engineers can gain great insight into the dynamic response of the structure and may help in the redesign of the structural system.

  12. Convince Engineers That Using The FNA Method* Allows A Finite Number Of Nonlinear Elements To Be Added To A Linear Computer Model. • Therefore, Structural Systems Such As Isolators, Gaps Degrading Stiffness And Energy Dissipation Devices Can Easily Be Considered. • See Chapter 18 at the web site • at edwilson.org • Comments and Question are Welcome at • ed-wilson1@juno.com

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