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Structural Engineering

Aerospace Biological Civil Geotechnical Mechanical

A Journey Towards Testing A Full-Scale 10-Story Wood Building

Shiling Pei
Seminar Speaker
Shiling Pei, PhD. P.E.
Seminar Date
Monday, Oct 24, 2022 - 12:00 pm
Seminar Location - Room
Warren Lecture Hall 2204
Speaker Bio

Dr. Shiling Pei received his Ph.D. in Civil Engineering from Colorado State University in December 2007 and joined the faculty of Civil and Environmental Engineering at Colorado School of Mines in Fall 2013. Before that, he worked as an Assistant Professor at South Dakota State University from 2010 to 2013. His research focused on multi-hazard mitigation through performance based engineering, numerical modeling of structural dynamic behavior, traditional and innovative timber systems, and large-scale dynamic testing. Dr. Pei received the 2012 ASCE Raymond C. Reese Research Prize for his work on seismic performance of mid-rise wood frame building. He is the author of the Seismic Analysis Package for Woodframe Structures (SAPWood) as part of the NSF (NEESR) funded NEESWood project, and served as one of the lead researchers in shake table testing of a full-scale 7-story wood-steel hybrid building at Japan’s E-defense shake table. He is currently leading an NSF funded six-university collaboration effort to develop seismic design methodology for resilient tall cross laminated timber (CLT) buildings, which will lead to shake table testing of a full-scale 10-story mass timber building. Dr. Pei is a registered Professional Engineer in State of California.

Wood has thousands of years of history as a building material but has also been restricted by building codes and regulations following the industrial revolution. Wood building is viewed as a cost-effective, but less engineered system mainly for low-rise options. Mass timber construction is a relatively new way of utilizing wood material for modern, high performance buildings at both large and small scales. It gives rise to the currently trending conception of wooden sky-scrapers. This presentation will provide an overview of multi-decade efforts by many researchers towards safer/stronger wood buildings. Specially, the planning process and research activities will be discussed on NSF-funded NHERI TallWood Project which aims at developing a seismic design method for tall wood buildings with a focus on achieving resilience. In collaboration with industry partners, the project aims at testing a full-scale 10-story mass timber building in 2023 in order to validate a resilience-based seismic design methodology for tall wood construction, helping wood buildings to reach new heights.


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