Cyclic Test of Precast Reinforced Concrete Tessellated Shear Wall

Grace F. Crocker; Brandon E. Ross; Michael Carlos Kleiss; Pinar Okumus; Negar Elhami Khorasani

doi:10.14359/51740848

Cyclic Test of Precast Reinforced Concrete Tessellated Shear Wall

Grace F. Crocker
, Brandon E. Ross
, Michael Carlos Kleiss
, Pinar Okumus
, Negar Elhami Khorasani

Department of Civil, Structural & Environmental Engineering

Clemson University

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

2 Scopus citations

Abstract

This paper describes the experimental testing of a reinforced concrete tessellated shear wall. The wall specimen was tested as part of a National Science Foundation-funded research project designed to demonstrate the concept of tessellated structural-architectural (TeSA) systems. TeSA systems are constructed of topologically interlocking tiles arranged in tessellations, or repeating geometric patterns. As such, these systems are designed with easy repair and reuse in mind. The specimen discussed in this paper is a TeSA shear wall constructed from individually precast I-shaped tiles. This paper presents the results of reverse cyclic loading of the specimen, including load-displacement behavior, crack propagation, and energy dissipation. A simplified analytical model for predicting the wall's flexural capacity is also discussed.

Original language	English
Pages (from-to)	37-50
Number of pages	14
Journal	ACI Structural Journal
Volume	121
Issue number	5
DOIs	https://doi.org/10.14359/51740848
State	Published - Sep 2024

Keywords

flexural capacity
low-damage
modular
reverse cyclic loading
seismic
self-centering
topologically interlocking
unbonded post-tensioning

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10.14359/51740848

Cite this

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title = "Cyclic Test of Precast Reinforced Concrete Tessellated Shear Wall",

abstract = "This paper describes the experimental testing of a reinforced concrete tessellated shear wall. The wall specimen was tested as part of a National Science Foundation-funded research project designed to demonstrate the concept of tessellated structural-architectural (TeSA) systems. TeSA systems are constructed of topologically interlocking tiles arranged in tessellations, or repeating geometric patterns. As such, these systems are designed with easy repair and reuse in mind. The specimen discussed in this paper is a TeSA shear wall constructed from individually precast I-shaped tiles. This paper presents the results of reverse cyclic loading of the specimen, including load-displacement behavior, crack propagation, and energy dissipation. A simplified analytical model for predicting the wall's flexural capacity is also discussed.",

keywords = "flexural capacity, low-damage, modular, reverse cyclic loading, seismic, self-centering, topologically interlocking, unbonded post-tensioning",

author = "Crocker, \{Grace F.\} and Ross, \{Brandon E.\} and Kleiss, \{Michael Carlos\} and Pinar Okumus and Khorasani, \{Negar Elhami\}",

year = "2024",

month = sep,

doi = "10.14359/51740848",

language = "English",

volume = "121",

pages = "37--50",

journal = "ACI Structural Journal",

issn = "0889-3241",

publisher = "American Concrete Institute",

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TY - JOUR

T1 - Cyclic Test of Precast Reinforced Concrete Tessellated Shear Wall

AU - Crocker, Grace F.

AU - Ross, Brandon E.

AU - Kleiss, Michael Carlos

AU - Okumus, Pinar

AU - Khorasani, Negar Elhami

PY - 2024/9

Y1 - 2024/9

N2 - This paper describes the experimental testing of a reinforced concrete tessellated shear wall. The wall specimen was tested as part of a National Science Foundation-funded research project designed to demonstrate the concept of tessellated structural-architectural (TeSA) systems. TeSA systems are constructed of topologically interlocking tiles arranged in tessellations, or repeating geometric patterns. As such, these systems are designed with easy repair and reuse in mind. The specimen discussed in this paper is a TeSA shear wall constructed from individually precast I-shaped tiles. This paper presents the results of reverse cyclic loading of the specimen, including load-displacement behavior, crack propagation, and energy dissipation. A simplified analytical model for predicting the wall's flexural capacity is also discussed.

AB - This paper describes the experimental testing of a reinforced concrete tessellated shear wall. The wall specimen was tested as part of a National Science Foundation-funded research project designed to demonstrate the concept of tessellated structural-architectural (TeSA) systems. TeSA systems are constructed of topologically interlocking tiles arranged in tessellations, or repeating geometric patterns. As such, these systems are designed with easy repair and reuse in mind. The specimen discussed in this paper is a TeSA shear wall constructed from individually precast I-shaped tiles. This paper presents the results of reverse cyclic loading of the specimen, including load-displacement behavior, crack propagation, and energy dissipation. A simplified analytical model for predicting the wall's flexural capacity is also discussed.

KW - flexural capacity

KW - low-damage

KW - modular

KW - reverse cyclic loading

KW - seismic

KW - self-centering

KW - topologically interlocking

KW - unbonded post-tensioning

UR - https://www.scopus.com/pages/publications/85204282165

U2 - 10.14359/51740848

DO - 10.14359/51740848

M3 - Article

AN - SCOPUS:85204282165

SN - 0889-3241

VL - 121

SP - 37

EP - 50

JO - ACI Structural Journal

JF - ACI Structural Journal

IS - 5

ER -

Cyclic Test of Precast Reinforced Concrete Tessellated Shear Wall

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Keywords

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