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Complex Double-Event Rupture of the 2022 Mw 6.6 Luding Earthquake

Bulletin of the Seismological Society of America
ABSTRACT On 5 September 2022, a strong earthquake (Mw 6.6) struck Luding County, Sichuan, China, causing significant casualties and property damage and marking the deadliest earthquake in mainland China in eight years. Previous studies using seismologic and/or geodetic data estimated the centroid depth of the Luding earthquake, with ...
Hongbo Han   +8 more
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Damages of highway tunnels during 2022 Luding earthquake (Mw = 6.6)

Soil Dynamics and Earthquake Engineering, 2023
Chaofan Yao   +7 more
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Geomorphic and tectonic controls of landslides induced by the 2022 Luding earthquake

Journal of Mountain Science, 2022
Bo Zhao   +9 more
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Damage Analysis of RC Frames in the Luding Ms 6.8 Earthquake, China

A Ms 6.8 earthquake struck Luding, China, in September 2022, causing significant structural damages to buildings. Notably, reinforced concrete (RC) frame structures exhibited the failure mode of strong beam–weak column (SBWC), which poses a severe threat to human safety and economic stability.
Baijie Zhu, Lingxin Zhang, Ning Li
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Disaster Characteristics and Emergency Response of Luding Ms6.8 Earthquake in Sichuan, China

10th Academic Conference of Geology Resource Management and Sustainable Development 2022, 2022
Hong Chen   +4 more
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Coseismic Deformation Monitoring for Luding Strong Earthquake by means of Lutan-1 SAR Satellites

2023 6th International Conference on Electronics and Electrical Engineering Technology (EEET), 2023
Xiang Zhang 0021   +3 more
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Analysis on the characteristics of strong ground motion for the 2022 Luding Ms6.8 earthquake in Sichuan

Fourth International Conference on Geoscience and Remote Sensing Mapping (GRSM 2022), 2023
Kai Chen, Jiang Yi, Zhiheng Li
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Lithosphere-atmosphere-ionosphere coupling processes for 2022 Luding Ms6.8 earthquake in China

Due to the significant earthquake-related perturbations observed in the ionosphere by ground-based stations and space-borne satellites, scientists have increasingly focused on the studying the possible coupling mechanism among lithosphere, atmosphere and ionosphere. In this work, we contribute to this research, analyzing the phase of preparation of the
Xuemin Zhang   +18 more
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Postearthquake Investigation of a Base-Isolated Building in the 2022 Ms 6.8 Luding Earthquake

Journal of Performance of Constructed Facilities, 2023
Kaoshan Dai   +6 more
openaire   +1 more source

Rapid assessment of the September 5, 2022 ​M 6.8 Luding earthquake in Sichuan, China

Earthquake Research Advances, 2023
Wenkai Chen, Wang Dun, Dun Wang
exaly  

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