ebook img

Seismic Performance of Soil-Foundation-Structure Systems: Selected Papers from the International Workshop on Seismic Performance of ... Auckland, New Zealand, 21-22 November 2016 PDF

214 Pages·2017·49.895 MB·English
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Seismic Performance of Soil-Foundation-Structure Systems: Selected Papers from the International Workshop on Seismic Performance of ... Auckland, New Zealand, 21-22 November 2016

SEISMIC PERFORMANCE OF SOIL-FOUNDATION-STRUCTURE SYSTEMS SELECTED PAPERS FROM THE INTERNATIONAL WORKSHOP ON SEISMIC PERFORMANCE OF SOIL-FOUNDATION-STRUCTURE SYSTEMS, AUCKLAND, NEW ZEALAND, 21–22 NOVEMBER 2016 Seismic Performance of Soil-Foundation-Structure Systems Editors Nawawi Chouw, Rolando P. Orense & Tam Larkin The University of Auckland, New Zealand Cover photo: Clustered structures in a laminar box by N. Chouw (University of Auckland) CRC Press/Balkema is an imprint of the Taylor & Francis Group, an informa business © 2017 Taylor & Francis Group, London, UK Typeset by V Publishing Solutions Pvt Ltd., Chennai, India Printed and Bound by CPI Group (UK) Ltd, Croydon, CR0 4YY All rights reserved. No part of this publication or the information contained herein may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, by photocopying, recording or otherwise, without written prior permission from the publisher. Although all care is taken to ensure integrity and the quality of this publication and the information herein, no responsibility is assumed by the publishers nor the author for any damage to the property or persons as a result of operation or use of this publication and/or the information contained herein. Published by: CRC Press/Balkema Schipholweg 107C, 2316 XC Leiden, The Netherlands e-mail: [email protected] www.crcpress.com – www.taylorandfrancis.com ISBN: 978-1-138-06251-1 (Hbk) ISBN: 978-1-315-16156-3 (eBook) Seismic Performance of Soil-Foundation-Structure Systems – Chouw, Orense & Larkin (Eds) © 2017 Taylor & Francis Group, London, ISBN 978-1-138-06251-1 Table of contents Photos of workshop participants vii Preface ix Acknowledgements xi Organising committee xiii Panel of reviewers xv List of participants xvii Photos xix Simulation of subsea seismic ground motions 1 H. Hao, K. Bi, C. Li & H. Li Comparative study of deck-abutment interaction with different contact models 13 Z. Shi & E.G. Dimitrakopoulos Numerical simulation of liquefaction effects on adjacent buildings with shallow foundations 25 R.P. Orense, Y. Hong & Y. Lu A study on seismic behavior of foundations of transmission towers during the 2011 off the Pacific coast of Tohoku Earthquake 37 Y. Tamari, Y. Nakagama, M. Kikuchi, M. Morohashi, T. Kurita, Y. Shingaki, Y. Hirata, R. Ohnogi & H. Nakamura Seismic performance of a non-structural component with two supports in bidirectional earthquakes considering soil-structure interaction 49 E. Lim, N. Chouw & L. Jiang Seismic ground-structure interaction: A geotechnical practitioner’s perspective 57 J.C.W. Toh Dynamic lateral load field testing of pile foundations to determine nonlinear stiffness and damping 67 L.S. Hogan, M.J. Pender & L.M. Wotherspoon Investigation of the influence of soil-structure interaction on the seismic performance of a skewed bridge 75 C. Kun, N. Chouw & L. Jiang Soil-foundation-structure-fluid interaction during earthquakes 81 S. Iai, K. Ueda & T. Tobita A mathematical approach to computing structural-failure boundaries 89 H.M. Osinga Modeling of soil-foundation-structure interaction for earthquake analysis of 3D BIM models 99 H. Werkle v Centrifuge modelling of the seismic response of multi-storey buildings on raft foundations to the Christchurch Earthquake 111 L.B. Storie, M.J. Pender & J.A. Knappett Double, triple and multiple impulses for critical elastic-plastic earthquake response analysis to near-fault and long-duration ground motions 123 I. Takewaki & K. Kojima Performance based design of a structural foundation on liquefiable ground 137 A.K. Murashev, C. Keepa & A. Tai Influence of foundation bearing pressure on liquefaction-induced settlement 147 G. Barrios, T. Larkin, R.P. Orense, N. Chouw, K. Uemura, K. Itoh & N. Kikkawa A large scale shake table test on the seismic response of a structure with SFSI and uplift 155 X. Qin, L. Jiang & N. Chouw Effect of ground motion characteristics on seismic response of pile foundations in liquefying soil 161 A.H.C. Chan, X.Y. Zhang, L. Tang & X.Z. Ling Seismic demand on piles in sites prone to liquefaction-induced lateral spreading 171 C. Barrueto, E. Sáez & C. Ledezma Summary of discussion sessions 183 Author index 189 vi Seismic Performance of Soil-Foundation-Structure Systems – Chouw, Orense & Larkin (Eds) © 2017 Taylor & Francis Group, London, ISBN 978-1-138-06251-1 Photos of workshop participants Participants of the 2016 International Workshop on Seismic Performance of Soil-Foundation-Structure Systems Participants of the 2016 International Workshop on Seismic Performance of Soil-Foundation-Structure Systems vii Seismic Performance of Soil-Foundation-Structure Systems – Chouw, Orense & Larkin (Eds) © 2017 Taylor & Francis Group, London, ISBN 978-1-138-06251-1 Preface In conventional seismic design the concept of fixed base is deeply embedded in practice. This design approach is employed largely by virtue of its simplicity and this simplicity enables structural engineers to proceed with their design in isolation of geotechnical consideration. In this simple design approach the earthquake loading is assumed to be independent of the system being loaded. This decoupling of the system and earthquake loading does not reflect the reality and can have severe consequence in both magnitude and frequency content of the system response. In the current approach the earthquake load is assumed as either the ground motion recorded at ground surface free of any influence of adjacent structures or is simu- lated based on a target design spectrum. An aspect of the complexity of the system is, as far as structures are concerned, that they are a closed system, while in the case of the supporting soil the system is without boundary. Consequently, the soil-foundation-structure systems are not unique with respect to their properties because of the strain-dependent nature of their characteristics. In reality, structures are not isolated, especially in intensely populated regions. Adjacent structures influence each other while responding to earthquakes. This influence results from the interaction between each structure with the supporting soil, between adjacent structures through common supporting ground and the alteration of incoming seismic waves from the summation of the interaction of all clustered structures. In addition, the compounding effect of high strain cyclic response of cohesionless soil will induce highly nonlinear behaviour leading to a strong local site effect. This strong nonlinear site response can have severe con- sequence for structures. This aspect cannot be considered in the design of structures when a fixed base is assumed. This workshop is one of the activities of the research project under the auspices of the Natural Hazards Research Platform entitled “Impact of liquefiable soil on the behaviour of coupled soil-foundation-structure systems in strong earthquakes” funded by the Ministry of Business, Innovation and Employment. The papers and presentations were by invitation only. However, the workshop itself was open to interested members of the public. The speak- ers were experts in their field and originated from Japan, Australia, USA, China, New Zea- land, Germany and Chile. The proceedings consisted of 19 papers, which were revised by the authors after the work- shop. The editors consider that a revision of the papers will lead to enhanced understanding of the seismic performance of multiple coupled systems. This understanding when incorpo- rated in everyday engineering design has the potential to facilitate a safer seismic environ- ment at a lower cost, especially in large cities of the world. Nawawi Chouw, Rolando P. Orense & Tam Larkin The University of Auckland, New Zealand ix

See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.