Effects of Using High-Strength Reinforcement in the Seismic Performance of a Tall RC Shear Wall Building

Juan Puentes; Pablo F. Parra; Carolina E. Magna-Verdugo; Patricio Cendoya; Siva Avudaiappan

doi:10.3390/buildings13040960

Effects of Using High-Strength Reinforcement in the Seismic Performance of a Tall RC Shear Wall Building

Juan Puentes, Pablo F. Parra, Carolina E. Magna-Verdugo, Patricio Cendoya, Siva Avudaiappan

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Chile’s reinforced concrete (RC) design is based on ACI 318-08, where high-strength reinforcement is not allowed in seismic force-resistant members. In 2019, new requirements adopted by ACI 318 permitted the incorporation of high-strength reinforcement in walls. This study compared the seismic performance of two Chilean 20-story residential buildings on soft soil, one designed with traditional Grade 60 and the other with high-strength Grade 80 reinforcement. The performance was assessed in terms of the probability of exceeding the ASCE 41 limit states during a 50-year lifecycle. Analyses showed that both buildings had similar seismic performance. However, the reduction in reinforcement in the Grade 80 building was close to 18%. It is concluded that using high-strength reinforcement in a typical wall building implies a significant reduction in the reinforcement used without affecting the seismic performance.

Original language	English
Article number	960
Journal	Buildings
Volume	13
Issue number	4
DOIs	https://doi.org/10.3390/buildings13040960
State	Published - Apr 2023
Externally published	Yes

Keywords

SPO2IDA
fragility curves
high-strength reinforcement
pushover analysis
shear wall

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10.3390/buildings13040960

Cite this

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title = "Effects of Using High-Strength Reinforcement in the Seismic Performance of a Tall RC Shear Wall Building",

abstract = "Chile{\textquoteright}s reinforced concrete (RC) design is based on ACI 318-08, where high-strength reinforcement is not allowed in seismic force-resistant members. In 2019, new requirements adopted by ACI 318 permitted the incorporation of high-strength reinforcement in walls. This study compared the seismic performance of two Chilean 20-story residential buildings on soft soil, one designed with traditional Grade 60 and the other with high-strength Grade 80 reinforcement. The performance was assessed in terms of the probability of exceeding the ASCE 41 limit states during a 50-year lifecycle. Analyses showed that both buildings had similar seismic performance. However, the reduction in reinforcement in the Grade 80 building was close to 18%. It is concluded that using high-strength reinforcement in a typical wall building implies a significant reduction in the reinforcement used without affecting the seismic performance.",

keywords = "SPO2IDA, fragility curves, high-strength reinforcement, pushover analysis, shear wall",

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T1 - Effects of Using High-Strength Reinforcement in the Seismic Performance of a Tall RC Shear Wall Building

AU - Puentes, Juan

AU - Parra, Pablo F.

AU - Magna-Verdugo, Carolina E.

AU - Cendoya, Patricio

AU - Avudaiappan, Siva

PY - 2023/4

Y1 - 2023/4

N2 - Chile’s reinforced concrete (RC) design is based on ACI 318-08, where high-strength reinforcement is not allowed in seismic force-resistant members. In 2019, new requirements adopted by ACI 318 permitted the incorporation of high-strength reinforcement in walls. This study compared the seismic performance of two Chilean 20-story residential buildings on soft soil, one designed with traditional Grade 60 and the other with high-strength Grade 80 reinforcement. The performance was assessed in terms of the probability of exceeding the ASCE 41 limit states during a 50-year lifecycle. Analyses showed that both buildings had similar seismic performance. However, the reduction in reinforcement in the Grade 80 building was close to 18%. It is concluded that using high-strength reinforcement in a typical wall building implies a significant reduction in the reinforcement used without affecting the seismic performance.

AB - Chile’s reinforced concrete (RC) design is based on ACI 318-08, where high-strength reinforcement is not allowed in seismic force-resistant members. In 2019, new requirements adopted by ACI 318 permitted the incorporation of high-strength reinforcement in walls. This study compared the seismic performance of two Chilean 20-story residential buildings on soft soil, one designed with traditional Grade 60 and the other with high-strength Grade 80 reinforcement. The performance was assessed in terms of the probability of exceeding the ASCE 41 limit states during a 50-year lifecycle. Analyses showed that both buildings had similar seismic performance. However, the reduction in reinforcement in the Grade 80 building was close to 18%. It is concluded that using high-strength reinforcement in a typical wall building implies a significant reduction in the reinforcement used without affecting the seismic performance.

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KW - shear wall

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Effects of Using High-Strength Reinforcement in the Seismic Performance of a Tall RC Shear Wall Building

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Keywords

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