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Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage

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Zeitschriftentitel: IOP Conference Series: Materials Science and Engineering
Personen und Körperschaften: Huynh, T N, Nguyen, R A, Pham, D M, Pham, T L T, Nguyen, K T
In: IOP Conference Series: Materials Science and Engineering, 849, 2020, 1, S. 012079
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
IOP Publishing
author_facet Huynh, T N
Nguyen, R A
Pham, D M
Pham, T L T
Nguyen, K T
Huynh, T N
Nguyen, R A
Pham, D M
Pham, T L T
Nguyen, K T
author Huynh, T N
Nguyen, R A
Pham, D M
Pham, T L T
Nguyen, K T
spellingShingle Huynh, T N
Nguyen, R A
Pham, D M
Pham, T L T
Nguyen, K T
IOP Conference Series: Materials Science and Engineering
Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
author_sort huynh, t n
spelling Huynh, T N Nguyen, R A Pham, D M Pham, T L T Nguyen, K T 1757-8981 1757-899X IOP Publishing http://dx.doi.org/10.1088/1757-899x/849/1/012079 <jats:title>Abstract</jats:title> <jats:p>Nowadays, steel bridge structure is becoming the trend of highways and bridges construction industry on not only the material characteristic but also its ability to be manufactured easily and reduce the constructing time. However, this structure still has its own disadvantages. One of the most critical factors greatly influencing the performance of the whole structure is the buckling capacity of the main girders, especially during construction stage. The most common solution for increasing the structure’s buckling capacity is to provide it with discrete bracing along the girder’s length. The designing of bracing for steel bridges requires high precision. If the design of the system is much stiffer than it demands, the structure will easily be prone to fatigue problems. In the other hand, if the bracing design does not meet its required stiffness, the whole structure’s stability will greatly reduce. Presently, many projects are designed too sufficiently leading to a huge waste of cost and time. Therefore, the expected results of this study are to propose an optimal design process for the bracing system design of steel I girder simple span bridges and a finite element model of a real-life steel bridge to confirm the reliability of the specification proposed.</jats:p> Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage IOP Conference Series: Materials Science and Engineering
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title Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_unstemmed Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_full Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_fullStr Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_full_unstemmed Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_short Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_sort specification for torsional bracing design of steel i girder simple span bridges during construction stage
url http://dx.doi.org/10.1088/1757-899x/849/1/012079
publishDate 2020
physical 012079
description <jats:title>Abstract</jats:title> <jats:p>Nowadays, steel bridge structure is becoming the trend of highways and bridges construction industry on not only the material characteristic but also its ability to be manufactured easily and reduce the constructing time. However, this structure still has its own disadvantages. One of the most critical factors greatly influencing the performance of the whole structure is the buckling capacity of the main girders, especially during construction stage. The most common solution for increasing the structure’s buckling capacity is to provide it with discrete bracing along the girder’s length. The designing of bracing for steel bridges requires high precision. If the design of the system is much stiffer than it demands, the structure will easily be prone to fatigue problems. In the other hand, if the bracing design does not meet its required stiffness, the whole structure’s stability will greatly reduce. Presently, many projects are designed too sufficiently leading to a huge waste of cost and time. Therefore, the expected results of this study are to propose an optimal design process for the bracing system design of steel I girder simple span bridges and a finite element model of a real-life steel bridge to confirm the reliability of the specification proposed.</jats:p>
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author Huynh, T N, Nguyen, R A, Pham, D M, Pham, T L T, Nguyen, K T
author_facet Huynh, T N, Nguyen, R A, Pham, D M, Pham, T L T, Nguyen, K T, Huynh, T N, Nguyen, R A, Pham, D M, Pham, T L T, Nguyen, K T
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description <jats:title>Abstract</jats:title> <jats:p>Nowadays, steel bridge structure is becoming the trend of highways and bridges construction industry on not only the material characteristic but also its ability to be manufactured easily and reduce the constructing time. However, this structure still has its own disadvantages. One of the most critical factors greatly influencing the performance of the whole structure is the buckling capacity of the main girders, especially during construction stage. The most common solution for increasing the structure’s buckling capacity is to provide it with discrete bracing along the girder’s length. The designing of bracing for steel bridges requires high precision. If the design of the system is much stiffer than it demands, the structure will easily be prone to fatigue problems. In the other hand, if the bracing design does not meet its required stiffness, the whole structure’s stability will greatly reduce. Presently, many projects are designed too sufficiently leading to a huge waste of cost and time. Therefore, the expected results of this study are to propose an optimal design process for the bracing system design of steel I girder simple span bridges and a finite element model of a real-life steel bridge to confirm the reliability of the specification proposed.</jats:p>
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spelling Huynh, T N Nguyen, R A Pham, D M Pham, T L T Nguyen, K T 1757-8981 1757-899X IOP Publishing http://dx.doi.org/10.1088/1757-899x/849/1/012079 <jats:title>Abstract</jats:title> <jats:p>Nowadays, steel bridge structure is becoming the trend of highways and bridges construction industry on not only the material characteristic but also its ability to be manufactured easily and reduce the constructing time. However, this structure still has its own disadvantages. One of the most critical factors greatly influencing the performance of the whole structure is the buckling capacity of the main girders, especially during construction stage. The most common solution for increasing the structure’s buckling capacity is to provide it with discrete bracing along the girder’s length. The designing of bracing for steel bridges requires high precision. If the design of the system is much stiffer than it demands, the structure will easily be prone to fatigue problems. In the other hand, if the bracing design does not meet its required stiffness, the whole structure’s stability will greatly reduce. Presently, many projects are designed too sufficiently leading to a huge waste of cost and time. Therefore, the expected results of this study are to propose an optimal design process for the bracing system design of steel I girder simple span bridges and a finite element model of a real-life steel bridge to confirm the reliability of the specification proposed.</jats:p> Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage IOP Conference Series: Materials Science and Engineering
spellingShingle Huynh, T N, Nguyen, R A, Pham, D M, Pham, T L T, Nguyen, K T, IOP Conference Series: Materials Science and Engineering, Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_full Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_fullStr Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_full_unstemmed Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_short Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
title_sort specification for torsional bracing design of steel i girder simple span bridges during construction stage
title_unstemmed Specification for Torsional Bracing Design of Steel I Girder Simple Span Bridges During Construction Stage
url http://dx.doi.org/10.1088/1757-899x/849/1/012079