Testing, numerical simulation and design of prestressed high strength steel arched trusses

Afshan, Sheida; Theofanous, Marios; Wang, Jie; Gkantou, Michaela; Gardner, Leroy

doi:10.1016/j.engstruct.2019.01.007

Cited by 18 publications

(14 citation statements)

References 28 publications

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“…In the past two decades, post-tensioning has been commonly used to improve the performance of steel and concrete structures [1][2][3][4][5][6][7][8][9][10][11][12]. Nunziata [13] investigated the behavior of post-tensioned steel beams through experimental analysis.…”

Section: Introductionmentioning

confidence: 99%

Theoretical Analysis on the Behavior of Reinforced Industrial Shed Structures with Shape Memory Alloys

2022

IJE

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Shape memory alloys (SMAs) are functional materials that feature shape memory effects and superelasticity. These features have made SMAs efficient materials for reinforcement and improvement of the stability of a structure. The present study investigated the effect of local post-tensioning with SMAs to improve the load-carrying capacity of tapered steel industrial sheds. For this purpose, ABAQUS software was used to predict the flexural strength and load-bearing capacity of the alloys. The effects of the diameter and the post-tension force applied to the SMA tendons were investigated. The results showed that external post-tensioning using SMA tendons is an effective way to increase the loadcarrying capacity of industrial sheds. In the maximum load capacity of the frame for the steel and SMA tendons increased by 36 and 60%, respectively. The performance of the sheds was improved by local post-tensioning, which can reduce the weight of the structures.

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Section: Introductionmentioning

confidence: 99%

Theoretical Analysis on the Behavior of Reinforced Industrial Shed Structures with Shape Memory Alloys

2022

IJE

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“…High strength steels, characterised by yield stresses greater than or equal to 460 MPa, have been attracting increasing attention in the construction industry. The superior mechanical strength (and thus higher strength-to-weight ratio) of high strength steels compared to normal strength steels enable structural components and connections to be designed with smaller dimensions (and thus reduced self-weight), therefore offering more economic and sustainable design solutions, especially for long-span and high-rise structures subjected to heavy vertical loading [2][3][4][5][6][7]. To gain a better understanding of the mechanical performance of different types of high strength steel structural elements and to develop suitable design rules, a number of test and numerical investigations have been conducted; those relating to high strength steel bolted connections are reported below.…”

Section: Introductionmentioning

confidence: 99%

Block tearing of S700 high strength steel bolted connections: Testing, numerical modelling and design

Jiang

Tan

Zhao

et al. 2021

Engineering Structures

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“…The large-span complex space truss structure is widely used in various major buildings because of its beautiful appearance and reliable structure. However, Large-span steel structure has a large span and complex forces [1][2][3][4] , and the potential for damage and destruction is particularly high during the construction phase. There are many hidden safety hazards in the construction of large-span steel structures.…”

Section: Introductionmentioning

confidence: 99%

Reliability Fuzzy Comprehensive Evaluation based on construction monitoring long-span arch truss

2021

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The steel roof of the West Stand structure in Jiangmen Sports Center is a super-span space steel tube truss arch structure. In this article, the simulation analysis, and construction monitoring process, and the arch foot deformation monitoring is researched systematically, and the fuzzy reliability analysis is established based on the construction monitoring process. The monitoring results show that the roof structure is in healthy state, and the arch foot deformation meets the design requirements, which means that detailed simulation calculation provides theoretical basis for construction monitoring, and the measured data agree well with the theoretical data. Reliability Fuzzy Comprehensive Evaluation of structural monitoring adopts a layered weighting method by dividing the entire structural monitoring into several types of key monitoring indicators, corresponding analysis is carried out according to the calculation formula of the weight of various indicators to solve the reliability problem of structural monitoring. It is shown through analysis that this method can provide an effective basis for on-site safety construction, and the above conclusions can provide references for related projects in the future.

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Testing, numerical simulation and design of prestressed high strength steel arched trusses

Cited by 18 publications

References 28 publications

Theoretical Analysis on the Behavior of Reinforced Industrial Shed Structures with Shape Memory Alloys

Theoretical Analysis on the Behavior of Reinforced Industrial Shed Structures with Shape Memory Alloys

Block tearing of S700 high strength steel bolted connections: Testing, numerical modelling and design

Reliability Fuzzy Comprehensive Evaluation based on construction monitoring long-span arch truss

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