Bibliografías temáticas / Out-of-plane connection capacity

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Literatura académica sobre el tema "Out-of-plane connection capacity"

Autor: Grafiati
Publicado: 10 de marzo de 2023
Última modificación: 11 de marzo de 2023

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Artículos de revistas sobre el tema "Out-of-plane connection capacity"

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Menichini, Giovanni, Emanuele Del Monte, Maurizio Orlando, and Andrea Vignoli. "Out-of-plane capacity of cladding panel-to-structure connections in one-story R/C precast structures." Bulletin of Earthquake Engineering 18, no. 15 (2020): 6849–82. http://dx.doi.org/10.1007/s10518-020-00962-5.

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Abstract The interaction between cladding panels and the main structure is a crucial point to assess the seismic response, and above all the structural safety, of RC precast industrial building. In the past, connections were often designed to allow construction tolerances and to accommodate both thermal and wind-induced displacements. The lack of specific details to allow relative in-plane displacements between cladding panels and the main structure often led to the participation of cladding panels in the structure seismic-resistant system with consequent connection failures. In the last decad
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2

Patra, Pratik, P. C. Ashwin Kumar, and Dipti Ranjan Sahoo. "Cyclic Performance of Braces with Different Support Connections in Special Concentrically Braced Frames." Key Engineering Materials 763 (February 2018): 694–701. http://dx.doi.org/10.4028/www.scientific.net/kem.763.694.

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Gusset plate connections between the steel braces and the supporting frame members play an important role in the performance of special concentrically braced frames (SCBFs) under earthquake loading conditions. Extensive studies have been conducted on SCBFs in which the gusset plate connections are designed to ensure the out-of-plane buckling of steel braces. However, research on the cyclic behavior of gusset plate connections allowing the in-plane buckling of braces is very limited. An experimental investigation has been carried out in this study to investigate the cyclic performance of the in
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3

Tomić, Igor, Francesco Vanin, Ivana Božulić, and Katrin Beyer. "Numerical Simulation of Unreinforced Masonry Buildings with Timber Diaphragms." Buildings 11, no. 5 (2021): 205. http://dx.doi.org/10.3390/buildings11050205.

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Though flexible diaphragms play a role in the seismic behaviour of unreinforced masonry buildings, the effect of the connections between floors and walls is rarely discussed or explicitly modelled when simulating the response of such buildings. These flexible diaphragms are most commonly timber floors made of planks and beams, which are supported on recesses in the masonry walls and can slide when the friction resistance is reached. Using equivalent frame models, we capture the effects of both the diaphragm stiffness and the finite strength of wall-to-diaphragm connections on the seismic behav
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4

Skalomenos, Konstantinos A., Tadahisa Takeda, Masahiro Kurata, and Masayoshi Nakashima. "On-Line Testing of Steel Brace Connections Using Non-Linear Substructuring and Force-Displacement Combined Control." Key Engineering Materials 763 (February 2018): 510–17. http://dx.doi.org/10.4028/www.scientific.net/kem.763.510.

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The present paper suggests an on-line hybrid test environment for evaluating the seismic performance of steel bracing connections. The test method combines substructuring techniques and finite element analysis. The behavior of the brace member is simulated by the finite element analysis program ABAQUS, while the bracing end connections are physically tested. Two actuators are used to simulate the physical continuity between the analytical and experimental substructures by controlling axial load and out-of-plane rotation. A MATLAB user subroutine is created as the interface between the main con
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5

Palacz, Przemysław, and Izabela Major. "Strengthening the existing connection of steel beams with a column." MATEC Web of Conferences 313 (2020): 00032. http://dx.doi.org/10.1051/matecconf/202031300032.

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The paper presents a solution that includes strengthening the connection of a support column with beams from both sides, placed in a vertical plane together with the pole. All the bar elements connected in the analyzed node were made of hot-rolled steel I-sections. Due to the need to increase the load on the joined beams to the pole, load-bearing capacity of the primary connection is lost, which necessitates the reinforcement of the existing connection. The analysis carried out in this paper shown exceeding the allowable stresses in the column web at the place of joining the beams. The calcula
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6

Lu, Bing, Cuihua Li, Cong Liu, and Lanhui Guo. "Numerical Study on Minimum Shear Connection Ratio of Tie-Bars in Steel Plate–Concrete Composite Beams Subjected to Out-of-Plane Cyclic Loading." Applied Sciences 12, no. 4 (2022): 1820. http://dx.doi.org/10.3390/app12041820.

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The failure modes of tie-bars under monotonic loading and cyclic loading are ductility and brittleness, respectively. They can significantly affect the design for tie-bars in a steel plate–concrete (SC) composite structure. A 3D finite element model of a SC composite beam was developed and verified through a quasi-static test. Two rules on the interfacial shear distribution were deduced and verified. Then, a total of 188 finite element models were developed to investigate the minimum shear connection ratio of tie-bars in SC composite beams, which can ensure the sufficient energy dissipation ca
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7

Baraccani, Simonetta, Giorgio Dan, Angelo Di Tommaso, and Tomaso Trombetti. "Reducing Seismic out of Plane Vulnerability of Masonry Church Façades through Optimization of Capacity Spectrum by Tie Rods." Key Engineering Materials 817 (August 2019): 325–33. http://dx.doi.org/10.4028/www.scientific.net/kem.817.325.

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The analyses of the structural damages detected on the Italian churches after the recent earthquakes (Emilia 2012, Umbria-Marche 2016) highlighted the high vulnerability to the overturning of the façades. The façades collapse mechanisms are strongly dependent on the connection details between orthogonal masonry walls, the windows, the construction techniques and the possible restraining horizontal elements, such as tie-beams, bi-lateral connected roof, etc. Several studies focus on the evaluation of vulnerability of the church façades using different approaches, from global analyses (FEM an
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8

Dai, Yi Min, Can Li, and Jian Xiang Ouyang. "Study on Flexural Behavior of the Steel-Full Depth Precast Concrete Panel Beams." Advanced Materials Research 163-167 (December 2010): 1980–86. http://dx.doi.org/10.4028/www.scientific.net/amr.163-167.1980.

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Based on twelve push-out specimens with different holes filling different materials,the paper compared and analyzed the capacity and the corresponding slip value of the stud shear connector.Meanwhile, tests were also conducted on three composite steel-FDPCP(Full-Depth Precast Concrete Panel) beams with different holes shape and degree of shear connection to investigate the characteistics of load-displacement,load-deflection,load-strain of the total cross section and monolithic action of the entire cross section in the paper. The results show that, as to the two different kinds of holes shape ,
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9

Livaoğlu, Ramazan, Mehmet Ömer Timurağaoğlu, Cavit Serhatoğlu, and Mahmud Sami Döven. "Damage during the 6–24 February 2017 Ayvacık (Çanakkale) earthquake swarm." Natural Hazards and Earth System Sciences 18, no. 3 (2018): 921–34. http://dx.doi.org/10.5194/nhess-18-921-2018.

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Abstract. On 6 February 2017 an earthquake swarm began at the western end of Turkey. This was the first recorded swarm in the Çanakkale region since continuous seismic monitoring began in 1970. The number of earthquakes located increased during the following 10 days. This paper describes the output of a survey carried out in the earthquake-prone towns in the area of Ayvacık, Çanakkale, Turkey, in February 2017 after the earthquakes. Observations of traditional buildings were made on site at the rural area of Ayvacık. A description of the main structural features and their effects on the most f
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10

Sitler, Ben, Toru Takeuchi, and Ryota Matsui. "Flexural Properties of Buckling-Restrained Brace Connections." Key Engineering Materials 763 (February 2018): 916–23. http://dx.doi.org/10.4028/www.scientific.net/kem.763.916.

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Buckling-restrained braces (BRBs) achieve large peak and cumulative ductility capacities by restricting yielding to an encased core, while maintaining global stability. However, stability is often governed by the connections and is sensitive to the end fixity provided by the adjacent framing and gusset, and flexural continuity between the neck and restrainer. This paper presents simple analytical methods to determine the flexural properties of these key components. Full-depth gusset stiffeners are found to be highly effective in increasing the out-of-plane rotational stiffness (KRg), equivalen
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Tesis sobre el tema "Out-of-plane connection capacity"

1

Menichini, Giovanni. "Seismic response of vertical concrete façade systems in reinforced concrete prefabricated buildings." Doctoral thesis, 2020. http://hdl.handle.net/2158/1220505.

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The design of “non-structural” elements, including the cladding panels for precast RC buildings, plays a key role in the building seismic response. The large damages that occurred in precast RC buildings, during the recent earthquakes in southern Europe were mainly caused by the collapse of the cladding panels. Therefore, is required to revise, to revise the technological and design philosophy the panel-to-structure connection devices in RC precast structures. Starting from these considerations, the main topic of this thesis is the investigation of such connection devices. Deeply underst
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Capítulos de libros sobre el tema "Out-of-plane connection capacity"

1

Nadeau, Robert. "The New Story of Humanity : Brains, Minds, and the Environmental Crisis." In Rebirth of the Sacred. Oxford University Press, 2013. http://dx.doi.org/10.1093/oso/9780199942367.003.0005.

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While sitting in a window seat during a flight from San Francisco to Washington, D.C. about twenty years ago, I had an experience that changed the course of my life. On the ground below, vast numbers of trucks and mile-long strings of railroad cars were moving along extensive networks of highways and tracks that threaded out in all directions, like a circulator system in some giant organism. Products from factories and farms were flowing through these arteries toward distant cities and coastal ports, and raw materials were flowing in the other direction to processing and manufacturing plants. In my mind’s eye, the web-like connections between electric power plants, transformers, cables, lines, phones, radios, televisions, and computers resembled the spine and branches of a central nervous system, and the centers of production, distribution, and exchange and all connections between them within the global economy. This conjured up the image of a superorganism feeding off the living system of the planet and extending its bodily organization and functions into every ecological niche. I realized, of course, that the global economic system is not an organism. It is a vast network of technological products and processes that members of our species created in an effort to enhance their material well-being. But this system does in ecological terms feed off the system of life on this planet and extend its organization into every ecological niche. After my plane landed at Dulles International Airport, I asked a simple question that required years of research to adequately answer. How did members of one species among the millions of species that have existed on this planet manage to increase their numbers and the scope and scale of their activities to the point where the capacity of the system of life on an entire planet to support their existence is being undermined? The answer is that our species, fully modern humans, evolved against all odds the capacity to acquire and use fully complex language systems.
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