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Steel Baseplate Connections with Ductile Anchors for the Improved Seismic Performance of ... PDF

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UC San Diego UC San Diego Electronic Theses and Dissertations Title Steel Baseplate Connections with Ductile Anchors for the Improved Seismic Performance of Structural Systems Permalink https://escholarship.org/uc/item/9vg3s3tv Author Trautner, Christopher Anderson Publication Date 2016 Peer reviewed|Thesis/dissertation eScholarship.org Powered by the California Digital Library University of California UNIVERSITY OF CALIFORNIA, SAN DIEGO Steel Baseplate Connections with Ductile Anchors for the Improved Seismic Performance of Structural Systems A dissertation submitted in partial satisfaction of the requirements for the degree of Doctor of Philosophy in Structural Engineering by Christopher Anderson Trautner Committee in charge: Professor Tara Hutchinson, Chair Professor Joel Conte Professor José Restrepo Profess or David Sandwell Professor Peter Shearer 2016 Copyright Christopher A. Trautner, 2016 All rights reserved. The Dissertation of Christopher Anderson Trautner is approved, and it is acceptable in quality and form for publication on microfilm: _____________________________________________________ _____________________________________________________ _____________________________________________________ _____________________________________________________ ________________________________________________ Chair University of California, San Diego 2016 iii DEDICATION This dissertation is dedicated to my fiancée, Alanna, and to my parents, Ellen and Chris. iv TABLE OF CONTENTS Signature Page.................................................................................................................iii Dedication........................................................................................................................iv Table of Contents..............................................................................................................v List of Figures................................................................................................................viii List of Tables.................................................................................................................xxi Notation........................................................................................................................xxiv Acknowledgements......................................................................................................xxix Vita.............................................................................................................................xxxiii Abstract of the Dissertation........................................................................................xxxvi Chapter 1: Introduction ..................................................................................................... 1 1.1 Background ............................................................................................................. 1 1.2 State of the Art ........................................................................................................ 3 1.3 Design Code Approach in the United States .......................................................... 5 1.4 Motivation and Problem Statement ........................................................................ 7 1.5 Summary of Previous Research .............................................................................. 9 1.6 Synthesis of Existing Studies ............................................................................... 24 1.7 Scope and Organization of Dissertation ............................................................... 25 Chapter 2: Anchor Reference and Anchor Material Tensile Testing ............................. 27 2.1 Introduction .......................................................................................................... 27 2.2 Tensile Test Series ................................................................................................ 27 2.3 Reference Test Series ........................................................................................... 54 2.4 Summary Remarks ............................................................................................... 74 v 2.5 Acknowledgement of Publications ....................................................................... 77 Chapter 3: Component Testing of Steel Column Baseplate Connections ...................... 78 3.1 Introduction and Motivation ................................................................................. 78 3.2 Experimental Design and Procedure .................................................................... 80 3.3 Damage Evolution and Limit States ..................................................................... 97 3.4 Data analysis and comparisons of hysteretic behavior ....................................... 106 3.5 Anchor Hole Size Effect ..................................................................................... 145 3.6 Relative Connection Component Strength Effect .............................................. 147 3.7 Overall test program comparisons ...................................................................... 157 3.8 Summary Remarks ............................................................................................. 163 3.9 Acknowledgement of Publications ..................................................................... 166 Chapter 4: Component-Level Numerical Analysis of Steel Column Baseplate Connections .................................................................................................................. 167 4.1 Motivation and Scope ......................................................................................... 167 4.2 Model description ............................................................................................... 169 4.3 Scripting for Parametric Analysis ...................................................................... 176 4.4 Model Verification ............................................................................................. 178 4.5 Model Application and Design Examples .......................................................... 190 4.6 Summary Remarks ............................................................................................. 200 4.7 Acknowledgement of Publications ..................................................................... 201 Chapter 5: Dynamic Testing and Numerical Analysis of Systems Incorporating Uplifting-Column, Ductile-Anchor Baseplate Connections ......................................... 202 5.1 Introduction ........................................................................................................ 202 5.2 Experimental Setup and Construction ................................................................ 204 vi 5.3 Specimen Description and Design ...................................................................... 209 5.4 Test Results and Observations ............................................................................ 243 5.5 Numerical modeling ........................................................................................... 355 5.6 Simplified Analytical Method for Estimating Required Anchor Elongation for Building and Nonbuilding Structures ....................................................................... 391 5.7 Summary Remarks ............................................................................................. 401 5.8 Acknowledgement of Publications ..................................................................... 406 Chapter 6: Conclusions and Recommendations ........................................................... 407 6.1 Summary of Research ......................................................................................... 407 6.2 Research Significance and Uniqueness .............................................................. 409 6.3 Key Results and Conclusions ............................................................................. 410 6.4 Recommendations for Future Research .............................................................. 415 References .................................................................................................................... 420 Appendix A: Keywords used in Axisymmetric Tension Test Model .......................... 428 Appendix B: Keywords used in Component FE Model ............................................... 429 Appendix C: Keywords from Dynamic Test FE Model ............................................... 430 Appendix D: Integration and Filtering of Dynamic Test Results ................................. 431 vii LIST OF FIGURES Figure 1-1: Examples of various types of baseplate connections ..................................... 1 Figure 1-2: Classification schemes for moment-frame steel column baseplate connections ....................................................................................................................... 3 Figure 1-3: Comparison of connection performance with and without stretch length in Maule Earthquake (from Soules et al. 2016) .................................................................... 5 Figure 1-4: Diagram of experimental specimen of Picard and Beaulieau (1985) .......... 13 Figure 1-5: Diagram of experimental specimen (from Asteneh et al., 1992) ................. 15 Figure 1-6: Proposed behavior-dependent model for baseplate connection design (from Asteneh et. al., 1992) ...................................................................................................... 16 Figure 1-7: Diagram of lateral and vertical loading system used for W8x48 connection tests (from Gomez et. al., 2010) ..................................................................................... 18 Figure 1-8: Elevation of test structure showing roller-type base supports (from Clough and Huckelbridge 1977) ................................................................................................. 20 Figure 1-9: Schematics of test structure of Hucklebridge (1977) .................................. 22 Figure 1-10: Rocking concept of Midorikowa et al. (2006) ........................................... 23 Figure 2-1: Photograph of typical tension test setup showing well-defined free length 30 Figure 2-2: Definition of free length L and stretch length L ........................................ 31 f s Figure 2-3: Typical force-displacement and stress-elongation response for 1 in. (25mm) diameter samples, L =8 in. [203mm]: (a) F1554 Gr. 36 CW, (b) F1554 CW-A, (c) s F1554 HR, (d) A193 B7 ................................................................................................. 34 Figure 2-4: Typical fracture surfaces and regions of significant plastic flow: (a) F1554 Gr. 36 CW, (b) F1554 CW-A, (c) F1554 HR, and (d) A193 B7 .................................... 35 Figure 2-5: Undeformed and deformed threads ............................................................. 42 Figure 2-6: Nut failure data with bounds of prediction of first contact .......................... 42 Figure 2-7: Axisymmetric model of anchor tension tests .............................................. 47 Figure 2-8: Simulation of tensile test through fracture (contours show magnitude of local plastic strain) .......................................................................................................... 47 viii Figure 2-9: Location of reduction of area measurements ............................................... 48 Figure 2-10: Measured versus simulated reduction of area for D=1”, L =8” bars ........ 49 s Figure 2-11: Results of thread sensitivity study for D=1" CW-A model ....................... 50 Figure 2-12: Relationship between deformation at fracture and stretch length for different material types and diameters ........................................................................... 53 Figure 2-13: Typical reference test setup ....................................................................... 56 Figure 2-14: Photograph of cored & removed cast-in, smooth shank headed anchor with measurements of reduction of area indicating de-bonding ............................................. 62 Figure 2-15: Force-displacement curves - all cast-in reference tests ............................. 64 Figure 2-16: Paste Intrusion Between Fender Washer and Structural Washer – Test CIR1 ............................................................................................................................... 64 Figure 2-17: Force balance - development of shear in anchor threads ........................... 67 Figure 2-18: Diagram of UNC thread contours (from ASME B1.1 2003) .................... 69 Figure 2-19: Force-displacement data from cast-in and removable anchor reference tests ........................................................................................................................................ 71 Figure 2-20: Force-displacement data from all bonded anchor reference tests (CW-A, cold-worked annealed steel) ........................................................................................... 72 Figure 2-21: Comparison of typical concrete surface condition following reference tests ........................................................................................................................................ 72 Figure 2-22: Force-displacement data from all 16mm undercut anchor reference tests 74 Figure 3-1: Connection test specimen drawings ............................................................ 83 Figure 3-2: Individual elevation diagrams of connection tests ...................................... 84 Figure 3-3: Photographs of connection test setup .......................................................... 87 Figure 3-4: Examples of cast-in anchors used in the test program (from left to right): cast-in (fully threaded), cast-in (headed with smooth shank), and removable ............... 90 Figure 3-5: Displacement history of SAC Steel Protocol (from Krawinkler 2009) ....... 96 Figure 3-6: Displacement history of SAC Near-Fault Protocol (from Krawinkler 2009) ........................................................................................................................................ 96 ix

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1.3 Design Code Approach in the United States . Figure 1-6: Proposed behavior-dependent model for baseplate connection design (from 93 prevent erection tolerance issues during construction. This value is significantly larger than the values for oversize holes typically used in steel connections
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