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Response of Integral Abutment- Bridges under cyclic thermal movement.- Numerical assessment on the influence of various factors for subsidence at the intersection of Expwy 78 and High Speed Rail of Taiwan.- Application of Recycled Rubber Mats for Improved Performance of Ballasted Tracks.- Appraisal of railway ballast degradation through Los Angeles abrasion, cyclic loading tests, and image Technics.- Design and Analyses of the Hurricane Protection Floodwall in South Louisiana.- Study on stability of tunnel portal section based on strength reduction shortest path method.- Lessons and treatment measures learned from one deep excavation failure case.- Analysis of dielectric properties and influencing factors of Zn contaminated soil. 

<div><div>Dr. Shanzhi Shu serves Senior Geotechnical Engineer supporting resolution of geotechnical challenges on Kiewit projects across North America and has been involved in numerous large-scale infrastructure development projects. He is a registered civil engineer in many states of United States and a registered geotechnical engineer in California. He completed his bachelor’s degree and master’s degree in engineering geology from Hebei Geo University, and Jilin University, respectively, China, and doctoral degree in civil engineering fromWashington State University in US.He has about 30 years of both academic and industry experiences. He has authored, co-authored and edited about 30 journal and conference proceedings papers, bookand technical reports.Hecurrently also serves as a co-editor of International Journal of Geomechanics (ASCE).</div><br></div><div>Prof Jinfeng Wang is Professor of the Department of Civil Engineering, of the College of Civil Engineering and Architecture of Zhejiang University (ORCID ID: 0000-0002-9099-818X). He completed the PhD on Structural Engineering at Zhejiang University. He is member of the American Society of Civil Engineers (ASCE),and the Zhejiang Society for Geotechnical Mechanics and Engineering (ZJSGME). As the principal investigator,he has beenresponsible for over 10 significant research projects including the National Natural Science Foundation of China.He has authored, co-authored and edited over forty of scientific journal papers, books, book chapters, and conference papers. He is member of the Editorial Board of Journal of Testing and Evaluation (ASTM).</div><br><div>Dr. Souliman is an Associate Professor in Civil Engineering at the University of Texas at Tyler. He received his M.S. and Ph.D. from Arizona State University in Civil, Environmental, and Sustainable Engineering focusing on Pavement Engineering. His twelve years of experience are concentrated on pavement materials design, Fatigue Endurance Limit of Asphalt Mixtures, Reclaimed Asphalt Pavement (RAP) mixtures, aggregate quality, field performance evaluation, maintenance and rehabilitation techniques, pavement management systems, cement treated bases, statistical analyses, modeling, and computer applications in civil engineering.</div><div>&nbsp;</div>Dr. Souliman has participated in several state and national projects during his current employment at the University of Texas at Tyler including “Documenting the Impact of Aggregate Quality on Hot Mix Asphalt (HMA) Performance, Texas Department of Transportation” for TxDOT, “Mechanistic and Economic Benefits of Fiber-Reinforced Overlay Asphalt Mixtures” for Forta Corporation as well as “Simplified Approach for Structural Evaluation of Flexible Pavements at the Network Level” which was funded by the US Department of Transportation via Tran-SET University Transportation Center.<div>&nbsp;</div><div>Dr. Souliman has also participated in several state and national projects during his employment at Arizona State University and University of Nevada, Reno. He had previously worked as a postdoctoral scholar at University of Nevada, Reno with the materials and transportation group. He had participated in several national research projects such as the FHWA Project titled “Analysis Procedures for Evaluating Superheavy Load Movement on Flexible Pavements” as well as Asphalt Research Consortium (ARC) Projects including “Design System for HMA Containing a High Percentage of RAP Material”. Before that, he had worked at Arizona State University where he was the major contributor in the NCHRP 9-44A project entitled “Validating an Endurance Limit for HMA Pavements: Laboratory Experiment and Algorithm Development”.</div><div>&nbsp;</div><div>Dr. Souliman has more than 100 technical publications, conference papers and reports in the field of pavement and aggregate testing, characterization, and field monitoring. He is the recipient of the lifetime International Road Federation Fellowship in 2009.In 2017, his research work on pavement engineering-related projects earned recognition as his college’s recipient of the Crystal Talon Award, sponsored by the Robert R. Muntz Library, recognizing outstanding scholarship and creativity of faculty from each college as determined by their dean. He also was awarded with the Crystal Quill award in 2018 by the University of Texas at Tyler for his research efforts and achievements.</div><div><br></div>

This book includes a collection of researches that contains research data, discussions and conclusions focusing on several related geotechnical aspects of infrastructure. Topics include issues related to civil infrastructure such as temperature-induced lateral earth pressure on bridge abutment, subsidence of high speed rail and expressway, application of recycled rubber mats, railway ballast evaluation, hurricane protection floodwall, tunnel portal stability, deep excavation case study and properties of contaminated soils. Various types of research were used in the various studies, including field measurements, numerical analyses and laboratory measurements. This findings and results should lead to more resilient infrastructure design, maintenance and management, which will provide benefits to both civil engineering practitioners, researchers and students

Presents the advancements in the fields of support of excavation Presents the advancements in the field of numerical modeling in geotechnical and geo-environmental engineering Sheds the lights on various creative remediation techniques of groundwater and soil contamination Adds insights on various geoenvironmental issues that are attracting every one’s attraction