NCHRP864v1_300dpi, Seismic Evaluation of Bridge Columns with Energy Dissipating Mechanisms, Volume 1: Research Overview and Volume 2: Guidelines

Read chapter NCHRP864v1_300dpi: TRB's National Cooperative Highway Research Program (NCHRP) Research Report 864: Seismic Evaluation of Bridge Columns with

Effect of V-shape canyon topography on seismic response of deep-water rigid-frame bridge based on simulated ground motions - ScienceDirect

On the assessment of seismic performance of bridge piers on caisson foundations subjected to strong ground motions - Gaudio - 2021 - Earthquake Engineering & Structural Dynamics - Wiley Online Library

Seismic Evaluation of Bridge Columns with Energy Dissipating Mechanisms, Volume 1: Research Overview and Volume 2: Guidelines

NCHRP864v1_300dpi, Seismic Evaluation of Bridge Columns with Energy Dissipating Mechanisms, Volume 1: Research Overview and Volume 2: Guidelines

NCHRP864v1_300dpi, Seismic Evaluation of Bridge Columns with Energy Dissipating Mechanisms, Volume 1: Research Overview and Volume 2: Guidelines

Seismic Evaluation of Bridge Columns with Energy Dissipating Mechanisms, Volume 1: Research Overview and Volume 2: Guidelines

Seismic Evaluation of Bridge Columns with Energy Dissipating Mechanisms, Volume 1: Research Overview and Volume 2: Guidelines

Performance-Based Seismic Design and Assessment of Bridges

Seismic collapse risk of RC-timber hybrid building with different energy dissipation connections considering NBCC 2020 hazard, Journal of Infrastructure Preservation and Resilience

NCHRP864v1_300dpi, Seismic Evaluation of Bridge Columns with Energy Dissipating Mechanisms, Volume 1: Research Overview and Volume 2: Guidelines

Seismic response characteristics and whiplash effect mechanism of continuous rigid-frame bridges subjected to near-fault ground motions

Performance of Railway Bridges during the 2011 Tōhoku Earthquake, Journal of Performance of Constructed Facilities