Evaluation of the influence of creep and shrinkage determinants on column shortening in mid-rise buildings

Shotcrete is ordinary concrete applied to the surface under high pressure. It demonstrates a highly time-dependent behaviour after few hours of application. Traditional approaches assume a simple linear elastic behaviour using a hypothetical young modulus to investigate the time-dependency and creep effects. In this paper, a new constitutive model of shotcrete is applied to evaluate the time-dependent behaviour of a TBM tunnel lining and investigate the parameters that can influence this behaviour. The Shotcrete model is based on the framework of Elasto-plasticity and designed to model shotcrete linings more realistically. The basic data of Pahang-Selangor Raw Water Transfer Project is used for the analysis study. An attempt is made to investigate the influence of some input parameters of the shotcrete model on the time-dependent behaviour of the shotcrete lining. These parameters include the time-dependent stiffness/strength parameters, creep and shrinkage parameters and steel fibre parameters. The variation in shotcrete strength classes causes a noticeable influence on the development of shotcrete compressive strength with time, particularly during the first days of application. The creep and shrinkage strain cause a considerable reduction in the development of the shotcrete stress with time. The impact of steel fibre content is determined, and the result indicated that the development of plain shotcrete stresses with time is lower than that of the reinforced shotcrete. In addition, a comparison study is performed to analyse the tunnel lining behaviour using both shotcrete model and an elastic analysis. Significant differences in shotcrete lining stresses are achieved when using the elastic analysis while the shotcrete model results in a reasonable result that can be used for the design requirements.

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Time-dependent reliability analysis for a set of RC T-beam bridges under realistic traffic considering creep and shrinkage

European Journal of Environmental and Civil engineering ◽

10.1080/19648189.2021.1946720 ◽

2021 ◽

pp. 1-25

Author(s):

Fatima El Hajj Chehade ◽

Rafic Younes ◽

Hussein Mroueh ◽

Fadi Hage Chehade

Keyword(s):

Reliability Analysis ◽

Time Dependent ◽

T Beam ◽

Creep And Shrinkage

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Analysis of Reinforced Concrete Culvert considering Concrete Creep and Shrinkage

Transportation Research Record Journal of the Transportation Research Board ◽

10.1177/0361198196154100115 ◽

1996 ◽

Vol 1541 (1) ◽

pp. 120-126

Author(s):

Charles J. Oswald

Keyword(s):

Finite Element ◽

Reinforced Concrete ◽

Cross Sections ◽

Soil Structure ◽

Silty Clay ◽

Soil Pressure ◽

Concrete Creep ◽

Long Span ◽

Creep And Shrinkage ◽

Good Agreement

Measurements made on a long span reinforced concrete arch culvert under 7.3 m (24 ft) of silty clay backfill were compared with results from finite-element analyses of the soil-structure system using the CANDE finite-element code. The culvert strains and deflections and the soil pressure on the culvert were measured during construction and during the following 2.5 years at three instrumented cross sections. The CANDE program was modified to account for the effects of concrete creep and shrinkage strains after it was noted that the measured postconstruction culvert deflection and strains increased significantly whereas the measured soil pressure on the culvert remained relatively constant. Good agreement was generally obtained between measured and calculated values of the culvert strain and deflection and the soil pressure during the entire monitoring period after the code was modified.

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Influence of Surface Abrasion on Creep and Shrinkage of Railway Prestressed Concrete Sleepers

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/245/3/032040 ◽

2017 ◽

Vol 245 ◽

pp. 032040

Author(s):

Dan Li ◽

Chayut Ngamkhanong ◽

Sakdirat Kaewunruen

Keyword(s):

Prestressed Concrete ◽

Creep And Shrinkage

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Preflex Beams: A Method of Calculation of Creep and Shrinkage Effects

Journal of Bridge Engineering ◽

10.1061/(asce)1084-0702(2006)11:1(48) ◽

2006 ◽

Vol 11 (1) ◽

pp. 48-58 ◽

Cited By ~ 9

Author(s):

Salvatore Giacomo Morano ◽

Claudio Mannini

Keyword(s):

Method Of Calculation ◽

Creep And Shrinkage

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Justification and refinements of model B3 for concrete creep and shrinkage 1. statistics and sensitivity

Matériaux et Constructions ◽

10.1007/bf02473078 ◽

1995 ◽

Vol 28 (7) ◽

pp. 415-430 ◽

Cited By ~ 103

Author(s):

Zdenêk P. Bažant ◽

Sandeep Baweja

Keyword(s):

Concrete Creep ◽

Creep And Shrinkage

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Sampling analysis of concrete structures for creep and shrinkage with correlated random material parameters

Probabilistic Engineering Mechanics ◽

10.1016/0266-8920(89)90023-4 ◽

1989 ◽

Vol 4 (4) ◽

pp. 174-186 ◽

Cited By ~ 8

Author(s):

Yunping Xi ◽

Zdeněk P. Bažant

Keyword(s):

Concrete Structures ◽

Material Parameters ◽

Creep And Shrinkage

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Influence of changing environment conditions on the development of shrinkage strain and the expansion coefficient of large concrete specimens

IABSE Congress, New York, New York 2019: The Evolving Metropolis ◽

10.2749/newyork.2019.1954 ◽

2019 ◽

Author(s):

Dominik Suza ◽

Johann Kollegger ◽

Harald S. Müller

Keyword(s):

Shrinkage Strain ◽

Theoretical Models ◽

Test Results ◽

Current Standard ◽

Operating Life ◽

Changing Environment ◽

Temperature And Humidity ◽

Bridge Structures ◽

Standard Models ◽

Creep And Shrinkage

The standard creep and shrinkage strain measurements of concrete are usually conducted in a laboratory with constant temperature and humidity with a low variation. The creep and shrinkage measurements are conducted over a few months with the expectation that small concrete specimens can sufficiently describe the evolution of the rheology effects on a large multi-span bridge in the course of its operating life.The monitoring of real bridge structures shows the actual progression of the deflections and concrete strains. Unfortunately the evaluation and interpretation of the measured values is complicated. The idea of the scientific Creep & Shrinkage project was to combine the two described situations (laboratory experiments and monitoring of real bridge structures) creating an experimental setup which would benefit from the advantages of both approaches.In order to achieve conformity of the measured test results with those of theoretical models (MC 2010, EC) it was necessary to upgrade the current models to include the effects of changing temperature and humidity. Within this paper the upgrade of the current standard models to include changing environment conditions will be elaborated, in addition to an explanation of the method used to separate shrinkage strains from the temperature strains from the measured data. The measured concrete expansion coefficients will also be discussed.

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