Effective Strength of Concrete Struts for a Three-dimensional Four-pile Cap Strut-and-Tie Model

Pile cap is a structure to distribute load from the upper structure to the sub structure. Often the planning of the pile cap is approached as a two way slab or beam with pile as restrain, by consider the bending and shear separately. As is the case with conventional methods that consider 1-way shear, 2-way shear, and bending separately. The strut and tie model can be used as an alternative method in designing a pile cap, by approaching the stress trajectory with the truss model. In this study, a pile cap will be designed using the conventional method and the strut and tie model, the pile cap with 3 pile cap and an eccentric load. Then the results are tested numerically using Abaqus to determine the difference in behavior. The main reinforcement results from the strut and tie model method are more evenly stressed than the conventional method, also the vertical load needed to achieve the main reinforcement yield stress strut and tie model (1100 kN) is greater than the conventional method (900 kN).

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An evaluation of pile cap design methods in accordance with the Canadian design standard

Canadian Journal of Civil Engineering ◽

10.1139/l03-075 ◽

2004 ◽

Vol 31 (1) ◽

pp. 109-119 ◽

Cited By ~ 7

Author(s):

William Cavers ◽

Gordon A Fenton

Keyword(s):

Reinforced Concrete ◽

Structural Design ◽

Design Methods ◽

Building Codes ◽

Design Models ◽

Design Standard ◽

Strut And Tie ◽

Pile Cap ◽

Pile Caps ◽

Strut And Tie Model

There are a number of design methods that have been described for the design of pile caps, but there has been no consensus on which method provides the best approach for the working designer. This paper describes a study conducted to establish the performance of several pile cap design methods, particularly with respect to the Canadian standard, CSA A23.3-94. Previous research was examined to determine the basis of the design methods and the state of current research. The design methods identified were then applied to pile caps for which test data were available. The theoretical loads obtained using the various design methods were compared with the experimental loads. The results of this study indicate that two design models of the five examined are the most suitable. This study also indicates that the provisions of the Canadian design standard are adequate. A possible refinement of the strut-and-tie model incorporating a geometric limit is also outlined.Key words: building codes, footings, pile caps, reinforced concrete, structural design.

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Experimental Study on Deep Four-Pile Caps with Different Reinforcement Layouts Based on 3D Strut-and-Tie Analogy

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.400-402.917 ◽

2008 ◽

Vol 400-402 ◽

pp. 917-922 ◽

Cited By ~ 1

Author(s):

Qian Gu ◽

Cheng Fang Sun ◽

Shao Min Peng

Keyword(s):

Load Capacity ◽

Longitudinal Reinforcement ◽

Test Results ◽

Test Procedures ◽

Strut And Tie ◽

Pile Cap ◽

Scale Ratio ◽

Pile Caps ◽

Strut And Tie Model ◽

Distributed Reinforcement

Based on 3D strut-and-tie analogy developed for analyzing the load-transferring mechanism of deep pile cap, this paper focuses on the effect of different longitudinal reinforcement layouts at the lower part of cap on the mechanical behaviors of deep four-pile cap. Besides a common layout of uniformly distributed reinforcement by the flexural theory, three different layouts of concentrated reinforcement over piles were designed by 3D strut-and-tie analogy. All specimens were limited in same reinforcement percentages, dimensions, materials and test procedures. Four specimens with the scale ratio of 1/5 were tested under the statically incremental gravity loading. The load capacity, deflection, strain of longitudinal reinforcement of specimens were measured, and the failure mode, crack propagation, deformation of specimens and stress distribution of reinforcement were analyzed. Through comparisons of the test results among all specimens, it was found that deep pile cap failed in shear and corner-pile punching whether with concentrated or uniform reinforcement, and the reinforcement concentrated over each two adjacent piles, similar to the tension bars in the strut-and-tie model, had considerable advantages than common uniform reinforcement layout. The ultimate strength of deep pile cap with concentrated reinforcement was significantly increased, while the improvement of deformation resistance and brittleness of deep pile cap was limited. According to above findings, the appropriate reinforcement layouts for deep pile cap were suggested in this paper.

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Verification of Three-Dimensional Grid Strut-and-Tie Model Approach in Structural Concrete

ACI Structural Journal ◽

10.14359/51700946 ◽

2018 ◽

Vol 115 (1) ◽

Author(s):

by Young Mook Yun ◽

Hyun Soo Chae ◽

Byunghun Kim ◽

Julio A. Ramirez

Keyword(s):

Three Dimensional ◽

Structural Concrete ◽

Strut And Tie ◽

Strut And Tie Model ◽

Model Approach

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A Three-Dimensional Strut-and-Tie Model for a Four-Pile Reinforced Concrete Cap

Journal of Advanced Concrete Technology ◽

10.3151/jact.17.365 ◽

2019 ◽

Vol 17 (7) ◽

pp. 365-380 ◽

Cited By ~ 1

Author(s):

Young Mook Yun ◽

Hyun-Soo Chae ◽

Julio Alfonso Ramirez

Keyword(s):

Reinforced Concrete ◽

Three Dimensional ◽

Strut And Tie ◽

Strut And Tie Model

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Behavior predictions of deep beams with short straight bar anchorages using strut-and-tie models and nonlinear analysis

Revista IBRACON de Estruturas e Materiais ◽

10.1590/s1983-41952016000500004 ◽

2016 ◽

Vol 9 (5) ◽

pp. 710-721

Author(s):

R. A. SOUZA ◽

S. BREÑA

Keyword(s):

Nonlinear Analysis ◽

Longitudinal Reinforcement ◽

Deep Beams ◽

Bond Slip ◽

Crack Control ◽

Strength Factor ◽

Strut And Tie ◽

Effective Strength ◽

Laboratory Test Results ◽

Strut And Tie Model

Abstract This paper investigates the laboratory test results of 12 deep beams available in the literature, where the longitudinal reinforcement was anchored into the support using short straight bar anchorages. Four different specimen groups with three different shear span-to-depth ratios (a/d) were selected and most of the deep beams failed by strut crushing after yielding of the main longitudinal reinforcement. In order to investigate the behavior of the selected deep beams, an enhanced strut-and-tie model assuming geometrical adaptability (possibility of update in the dimensions of the struts and ties as the main tie starts to yield) is proposed. The analytical results obtained using this approach may be considered as much as accurate than some conducted complex nonlinear analysis considering smeared fixed cracking model and bond-slip behavior. However, an improvement on the effective strength factor of bottle-shaped struts by means of an iterative strut-and-tie model is needed, once the effective strength factor prescribed by NBR6118 (2014) has shown to be over conservative for all ranges of span-to-depth ratio (a/d) investigated. Finally, the obtained results indicated that short bar anchorages did not seem to influence significantly the shear strength of the deep beams investigated, especially the strength of bottled-shaped struts when appropriate crack control reinforcement is present.

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Three-Dimensional Grid Strut-and-Tie Model Approach in Structural Concrete Design

ACI Structural Journal ◽

10.14359/51700791 ◽

2018 ◽

Vol 115 (1) ◽

Cited By ~ 1

Author(s):

Young Mook Yun ◽

Byunghun Kim ◽

Julio A. Ramirez

Keyword(s):

Three Dimensional ◽

Structural Concrete ◽

Strut And Tie ◽

Strut And Tie Model ◽

Model Approach

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Refined Three-Dimensional Strut-and-Tie Model for Analysis and Design of Four-Pile Caps

ACI Structural Journal ◽

10.14359/51714485 ◽

2019 ◽

Vol 116 (4) ◽

Cited By ~ 3

Author(s):

Carlos Meléndez ◽

Juan Sagaseta ◽

Pedro F. Miguel Sosa ◽

Luis Pallarés Rubio

Keyword(s):

Three Dimensional ◽

Analysis And Design ◽

Strut And Tie ◽

Pile Caps ◽

Strut And Tie Model

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Research on Bearing Mechanism of Strut-and-Tie Model for Punching Failure of Independent Foundation Under Column

10.3233/atde210147 ◽

2021 ◽

Author(s):

Jie Deng

Keyword(s):

Finite Element Analysis ◽

Finite Element ◽

Three Dimensional ◽

Failure Strength ◽

Element Analysis ◽

Strut And Tie ◽

Compression Failure ◽

Four Corners ◽

Strut And Tie Model ◽

Punching Failure

Through three-dimensional nonlinear finite element analysis, the punching failure’s bearing mechanism of the independent foundation under column whose slab is the size of 0.8m×0.8m×0.3m is obtained. The transfer mechanism of the foundation is spatial strut-and-tie model, where the reinforcements located in the link ranges between each adjacent corner of the slab are represented by ties, and the concrete distributed in the link ranges from the column bottom to four corners of the slab bottom are represented by struts. The indication of punching failure is that the concrete at the two ends of the struts reaches the shear-compression failure strength, and the punching cone is punched out relative to the slab, which has distinct punching failure features. A new spatial strut-and-tie model composed of four ties and four struts is proposed on the basis of clear bearing mechanism, which provides a new idea for the calculation of the punching bearing capacity of the independent foundation under column.

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ANÁLISE NUMÉRICA DE BLOCO SOBRE DUAS ESTACAS METÁLICAS

REEC - Revista Eletrônica de Engenharia Civil ◽

10.5216/reec.v16i1.54220 ◽

2020 ◽

Vol 16 (1) ◽

pp. 91-104

Author(s):

Rodrigo Gustavo Delalibera ◽

Vítor Freitas Gonçalvez

Keyword(s):

Numerical Models ◽

Structural Behavior ◽

The Finite Element Method ◽

Good Match ◽

Strut And Tie ◽

Steel Piles ◽

Pile Cap ◽

Pile Caps ◽

Strut And Tie Model ◽

Made In

RESUMO: Perfis metálicos são utilizadas em diversas aplicações na construção civil. No entanto, ainda existem dúvidas quanto ao comportamento estrutural de blocos de coroamento quando se utiliza estacas metálicas. No presente trabalho foram desenvolvidos modelos numéricos, por meio do método dos elementos finitos, de um bloco sobre duas estacas metálicas, com o intuito de identificar tendências com relação ao comportamento estrutural bloco. Os resultados numéricos apresentaram correlações satisfatórias com os resultados experimentais, com os quais foram feitas análises comparativas. Concluiu-se que o modelo de bielas e tirantes utilizado no dimensionamento do bloco sobre estacas analisado não apresentou resultado esperado para o comportamento estrutural de blocos sobre estacas metálicas e, portanto, mais estudos devem ser realizados para se obter um modelo analítico satisfatório. ABSTRACT: Steel piles are used on various fields on civil construction. However, there are still some uncertainties about the structural behavior of pile caps supported on steel piles. On this study the finite element method was used to develop numerical models of a two-pile cap on steel pile, with the aim of identifying tendencies on the structural behavior of the element. The numerical results showed good match with the experimental results of Tomaz (2018), which were used for analysis. It was concluded that the strut and tie model proposed by Blévot & Frémy (1967), usually used on the design of pile caps, doesn’t depict the actual structural behavior of pile caps on steel piles and, therefore, further studies must be made in order to develop a better physical model.

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