ANALYTICAL MODEL FOR PULLOUT AND SPLITTING FAILURES IN BAR ANCHORAGES AND LAPS

Juan Murcia-Delso

ANALYTICAL MODEL FOR PULLOUT AND SPLITTING FAILURES IN BAR ANCHORAGES AND LAPS

Juan Murcia-Delso^*

^*Corresponding author for this work

Polytechnic University of Catalonia

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This paper presents a unified analytical method to predict the slip and tensile strength capacity of both straight anchorages and lap splices. Closed-form solutions of the slip at the loaded end of an anchorage or lap splice are derived based on a set of simplified bond stress distributions applicable for different geometrical and loading conditions. The model assumes a linear bond stress distribution along the elastic portion of the anchorage/splice, and a constant bond resistance within the region where the bar has yielded in tension. Closed-form solutions of the ultimate strength capacity of the anchorage/splice are also obtained by combining the proposed model with a simple bond failure criteria and the local bond strength specified in the 2010 Model Code. The proposed formulation is shown to predict with overall good accuracy the slip response of bar anchorage tests reported in the literature, including pullout failures, and the lap-splice strength of 457 test specimens from the ACI 408 database.

Original language	English
Title of host publication	Proceedings for the 6th fib International Congress, 2022- Concrete Innovation for Sustainability
Editors	Stine Stokkeland, Henny Cathrine Braarud
Publisher	fib. The International Federation for Structural Concrete
Pages	1480-1489
Number of pages	10
ISBN (Print)	9782940643158
Publication status	Published - 2022
Externally published	Yes
Event	6th fib International Congress on Concrete Innovation for Sustainability, 2022 - Oslo, Norway Duration: 12 Jun 2022 → 16 Jun 2022

Publication series

Name	fib Symposium
ISSN (Print)	2617-4820

Conference

Conference	6th fib International Congress on Concrete Innovation for Sustainability, 2022
Country/Territory	Norway
City	Oslo
Period	12/06/22 → 16/06/22

Cite this

@inproceedings{9e5b6c637d4c4680865f0f2aef3a0b9d,

title = "ANALYTICAL MODEL FOR PULLOUT AND SPLITTING FAILURES IN BAR ANCHORAGES AND LAPS",

abstract = "This paper presents a unified analytical method to predict the slip and tensile strength capacity of both straight anchorages and lap splices. Closed-form solutions of the slip at the loaded end of an anchorage or lap splice are derived based on a set of simplified bond stress distributions applicable for different geometrical and loading conditions. The model assumes a linear bond stress distribution along the elastic portion of the anchorage/splice, and a constant bond resistance within the region where the bar has yielded in tension. Closed-form solutions of the ultimate strength capacity of the anchorage/splice are also obtained by combining the proposed model with a simple bond failure criteria and the local bond strength specified in the 2010 Model Code. The proposed formulation is shown to predict with overall good accuracy the slip response of bar anchorage tests reported in the literature, including pullout failures, and the lap-splice strength of 457 test specimens from the ACI 408 database.",

author = "Juan Murcia-Delso",

note = "Publisher Copyright: {\textcopyright} F{\'e}d{\'e}ration Internationale du B{\'e}ton – International Federation for Structural Concrete.; 6th fib International Congress on Concrete Innovation for Sustainability, 2022 ; Conference date: 12-06-2022 Through 16-06-2022",

year = "2022",

language = "English",

isbn = "9782940643158",

series = "fib Symposium",

publisher = "fib. The International Federation for Structural Concrete",

pages = "1480--1489",

editor = "Stine Stokkeland and Braarud, \{Henny Cathrine\}",

booktitle = "Proceedings for the 6th fib International Congress, 2022- Concrete Innovation for Sustainability",

}

Murcia-Delso, J 2022, ANALYTICAL MODEL FOR PULLOUT AND SPLITTING FAILURES IN BAR ANCHORAGES AND LAPS. in S Stokkeland & HC Braarud (eds), Proceedings for the 6th fib International Congress, 2022- Concrete Innovation for Sustainability. fib Symposium, fib. The International Federation for Structural Concrete, pp. 1480-1489, 6th fib International Congress on Concrete Innovation for Sustainability, 2022, Oslo, Norway, 12/06/22.

ANALYTICAL MODEL FOR PULLOUT AND SPLITTING FAILURES IN BAR ANCHORAGES AND LAPS. / Murcia-Delso, Juan.
Proceedings for the 6th fib International Congress, 2022- Concrete Innovation for Sustainability. ed. / Stine Stokkeland; Henny Cathrine Braarud. fib. The International Federation for Structural Concrete, 2022. p. 1480-1489 (fib Symposium).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - ANALYTICAL MODEL FOR PULLOUT AND SPLITTING FAILURES IN BAR ANCHORAGES AND LAPS

AU - Murcia-Delso, Juan

N1 - Publisher Copyright: © Fédération Internationale du Béton – International Federation for Structural Concrete.

PY - 2022

Y1 - 2022

N2 - This paper presents a unified analytical method to predict the slip and tensile strength capacity of both straight anchorages and lap splices. Closed-form solutions of the slip at the loaded end of an anchorage or lap splice are derived based on a set of simplified bond stress distributions applicable for different geometrical and loading conditions. The model assumes a linear bond stress distribution along the elastic portion of the anchorage/splice, and a constant bond resistance within the region where the bar has yielded in tension. Closed-form solutions of the ultimate strength capacity of the anchorage/splice are also obtained by combining the proposed model with a simple bond failure criteria and the local bond strength specified in the 2010 Model Code. The proposed formulation is shown to predict with overall good accuracy the slip response of bar anchorage tests reported in the literature, including pullout failures, and the lap-splice strength of 457 test specimens from the ACI 408 database.

AB - This paper presents a unified analytical method to predict the slip and tensile strength capacity of both straight anchorages and lap splices. Closed-form solutions of the slip at the loaded end of an anchorage or lap splice are derived based on a set of simplified bond stress distributions applicable for different geometrical and loading conditions. The model assumes a linear bond stress distribution along the elastic portion of the anchorage/splice, and a constant bond resistance within the region where the bar has yielded in tension. Closed-form solutions of the ultimate strength capacity of the anchorage/splice are also obtained by combining the proposed model with a simple bond failure criteria and the local bond strength specified in the 2010 Model Code. The proposed formulation is shown to predict with overall good accuracy the slip response of bar anchorage tests reported in the literature, including pullout failures, and the lap-splice strength of 457 test specimens from the ACI 408 database.

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AN - SCOPUS:85143907767

SN - 9782940643158

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SP - 1480

EP - 1489

BT - Proceedings for the 6th fib International Congress, 2022- Concrete Innovation for Sustainability

A2 - Stokkeland, Stine

A2 - Braarud, Henny Cathrine

PB - fib. The International Federation for Structural Concrete

T2 - 6th fib International Congress on Concrete Innovation for Sustainability, 2022

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ER -

ANALYTICAL MODEL FOR PULLOUT AND SPLITTING FAILURES IN BAR ANCHORAGES AND LAPS

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