SMAs for infrastructures in seismic zones: A critical review of latest trends and future needs
C Fang - Journal of Building Engineering, 2022 - Elsevier
With critical lessons drawn from recent strong earthquakes, the engineering community is
appealing for a fundamental shift of the existing design philosophy for infrastructures in …
appealing for a fundamental shift of the existing design philosophy for infrastructures in …
Self-centering structures against earthquakes: a critical review
With critical lessons drawn from past major earthquakes, the engineering community is
appealing for a fundamental shift in the existing design philosophy for structures in seismic …
appealing for a fundamental shift in the existing design philosophy for structures in seismic …
Life‐cycle benefits estimation for hybrid seismic‐resistant self‐centering braced frames
The hybrid self‐centering braced frames (HSBFs) with shape memory alloy‐based braces
(SMABs) and viscous dampers (VDs) are an emerging structural system developed for …
(SMABs) and viscous dampers (VDs) are an emerging structural system developed for …
Machine learning-driven performance-based seismic design of hybrid self-centering braced frames with SMA braces and viscous dampers
A hybrid self-centering braced frame equipped with shape memory alloy-based self-
centering braces (SMA-SCBs) and viscous dampers is proposed to achieve enhanced …
centering braces (SMA-SCBs) and viscous dampers is proposed to achieve enhanced …
Iron-based shape memory alloys in construction: research, applications and opportunities
ZX Zhang, J Zhang, H Wu, Y Ji, DD Kumar - Materials, 2022 - mdpi.com
As a promising candidate in the construction industry, iron-based shape memory alloy (Fe-
SMA) has attracted lots of attention in the engineering and metallography communities …
SMA) has attracted lots of attention in the engineering and metallography communities …
Superelastic pendulum isolator with multi-stage variable curvature for seismic resilience enhancement of cold-regional bridges
This study develops a novel superelastic pendulum isolator with multi-stage variable
curvature (SPIVC) to enhance the seismic resilience of the cold-regional bridges. The SPIVC …
curvature (SPIVC) to enhance the seismic resilience of the cold-regional bridges. The SPIVC …
Machine learning-aided peak displacement and floor acceleration-based design of hybrid self-centering braced frames
The hybrid self-centering braced frame (HSBF) is an emerging seismic resilient structural
system with the capacity of controlling peak inter-story drifts and floor accelerations and …
system with the capacity of controlling peak inter-story drifts and floor accelerations and …
Fe-Mn-Si alloy U-shaped dampers with extraordinary low-cycle fatigue resistance
J Zhang, C Fang, MCH Yam, C Lin - Engineering Structures, 2022 - Elsevier
This study presents a new type of Fe-Mn-Si alloy U-shaped dampers (FMS-UDs) that exhibit
extraordinary low cycle fatigue (LCF) performance. The basic material properties of Fe-Mn …
extraordinary low cycle fatigue (LCF) performance. The basic material properties of Fe-Mn …
Design, manufacturing, and testing of a hybrid self‐centering brace for seismic resilience of buildings
F Shi, Z Lin, Q Li, OE Ozbulut, Z He… - … & Structural Dynamics, 2023 - Wiley Online Library
This study explores the development of a shape memory alloy (SMA)‐based hybrid self‐
centering brace that combines NiTi superelastic cables with viscoelastic dampers. First, the …
centering brace that combines NiTi superelastic cables with viscoelastic dampers. First, the …
SMA-braced steel frames influenced by temperature: Practical modelling strategy and probabilistic performance assessment
This study presents a practical and efficient modelling approach for shape memory alloy
(SMA)-braced steel frames under various temperatures, and examines their probabilistic …
(SMA)-braced steel frames under various temperatures, and examines their probabilistic …