Journal articles
Author(s) | Title | Journal | Issue | Page | Category |
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Kasuga, Akio | Development of a new bridge construction method using suspension structures | Structural Concrete | 2/2011 | 65-75 | Articles |
AbstractA unique suspension method developed over a period of more than 10 years produces a rational structure in the form of a single-span composite truss bridge. For this structure, the steel truss and concrete deck are constructed on the spanning cables. During construction the horizontal forces of these cables are anchored into the ground, but after completion of the bridge the forces are transferred to concrete upper and lower chords as prestressing forces. A single-span composite truss bridge of this type can be constructed without temporary supports or falsework. Using this method to bridge a deep valley produces benefits in terms of both construction costs and sustainability. A single-span bridge requires less excavation than other bridge types, and utilizing a composite truss with this construction method can minimize the environmental impact of the construction. x | |||||
Stráský, JirÃ; Stráský, JirÃ; Stefan, Petr; Necas, Radim | Footbridge across the River Svratka in Brno, Czech Republic | Structural Concrete | 2/2011 | 76-81 | Articles |
AbstractThis bridge, which won a fib Award for Outstanding Concrete Structures in 2010, connects a newly developed area (Spielberk Office Centre) with an old city district. It is situated in the vicinity of a new international hotel and a prestige business area. Close to the bridge there is an old multi-span arch bridge with piers in the river. It was evident that any new bridge should also make use of an arch structure, but with a bold span not needing piers in the riverbed, see Fig. 1. Due to poor geotechnical conditions, a traditional arch structure with a large horizontal force to be resisted was considered too expensive. Therefore, a self-anchored stress ribbon and arch structure was chosen. The smooth curves so characteristic of stress ribbon structures allowed a “soft” connection of the bridge deck at both banks. x | |||||
Sousa, Helder; Félix, Carlos; Bento, João; Figueiras, Joaquim | Design and implementation of a monitoring system applied to a long-span prestressed concrete bridge | Structural Concrete | 2/2011 | 82-93 | Articles |
AbstractCurrently, long-term monitoring systems are mandatory for major civil engineering structures such as bridges, tunnels and dams. Generally, they monitor a set of physical, chemical and mechanical parameters in critical sections of the structure by incorporating appropriate sensors. The set of data collected demonstrates great potential in the prevention of damage and contributes to more efficient maintenance of the structures monitored. This work presents the long-term monitoring system installed on the new Lezíria Bridge over the River Tagus in Portugal. The system was developed to control some aspects of the construction process and to survey the service life of the structure. A set of structural, durability and environmental parameters defining the bridge condition are remotely assessed in real-time via a fibreoptic network. Aspects such as architecture, installation and functionality of the monitoring system are discussed and the innovative aspects of the implementation are highlighted. In this context, the main goal of this work is to present the long-term monitoring system of Lezíria Bridge, sharing the experiences, the solutions and the procedures adopted, given their potential usefulness in the implementation of similar projects. x | |||||
Nishimura, Akira; Yamamoto, Hiroshi; Kimura, Yasuhiko; Kimura, Hideki; Yamamoto, Masashi; Kushibe, Atsumichi | Base-isolated super high-rise RC building composed of three connected towers with vibration control systems | Structural Concrete | 2/2011 | 94-108 | Articles |
AbstractThe Island Tower Sky Club is a super high-rise RC apartment block constructed in Fukuoka City, Japan, which makes inventive use of the most advanced building technologies. The building is 145 m tall with 42 storeys. It is composed of three similar, slender towers with three-fold rotational symmetry. The towers are connected at three different levels by aerial gardens and contain various vibration control devices to assure a high level of safety. The aerial gardens are connected to the towers by vibration control dampers to reduce the overturning effects of the towers caused by seasonal winds and large earthquakes. An elaborate control system can reduce the storey acceleration response by 30 %. At the upper two storeys of each tower, super-plastic zincaluminium alloy dampers are also used. To reduce the storey acceleration response, the base of the building is isolated using a hybrid system of bearing supports and dampers. The validity of the control system implemented is confirmed by human power vibration tests conducted at the aerial gardens. x | |||||
Araujo, Carlos Antonio Menegazzo; Loriggio, Daniel Domingues; Da Camara, José Manuel Matos Noronha | Anchorage failure and shear design of hollow-core slabs | Structural Concrete | 2/2011 | 109-119 | Articles |
AbstractA number of studies in recent years have attempted to understand and calculate the shear strength of hollow-core slabs, but no consensus has been reached on this issue. The current design methods for hollow-core shear resistance are derived from experimental results and elastic theories that are not usually directly related to the behaviour at the ultimate limit state. Moreover, some manuals on this subject do not discuss anchorage failures, which although not common in this type of slab, may influence the shear strength. This paper considers the anchorage failure of strands using the concepts of Eurocode 2 and presents an analytical methodology for shear design based on the modified compression field theory (MCFT). Furthermore, the safety concepts of Eurocode 2 are properly presented and evaluated using the experimental data available in the literature. The proposed methodology is proved to be accurate and is simple enough for use in design. Comparisons with CSA A23.3 and Eurocode 2 are also shown. x | |||||
Elices, Manuel; Suarez, Fernando; Gálvez, Jaime C.; Cendón, David A.; Atienza, Jose Miguel | Influence of coiling on the stress relaxation of prestressing steel wires | Structural Concrete | 2/2011 | 120-125 | Articles |
AbstractThe possible deleterious effects of coiling and long-term storage of coiled wires on the stress relaxation behaviour of prestressing steel wires has been checked by means of experimental work and a simple analytical model. The results show that if the requirements of standards are fulfilled (minimum coiling diameters), these effects can be neglected. However, some other factors, such as previous residual stresses, long-term storage or storage at high temperatures, can trigger or emphasize this damage to the material. In the authors' opinion, checking the final curvature of the wires after uncoiling prior to prestressing, as required in some standards, is to be recommended. x | |||||
Poston, Randall W.; Dolan, Charles W. | Reorganization of the ACI 318 Building Code | Structural Concrete | 2/2011 | 126-128 | Articles |
AbstractIn 2008, ACI 318 initiated a six-year task of reorganizing the format of the ACI Building Code for Concrete Structures. This is the first major reorganization of the code in nearly 40 years. The reorganization effort moves the code from a behaviour-based to a member-based design approach. This article presents the philosophy of the code development, efforts leading up to the reorganization and an outline of the 2014 code format. x | |||||
fib short course in Nicosia, Cyprus: Durability and retrofitting of concrete structures | Structural Concrete | 2/2011 | 129-135 | fib-news | |
Abstract• fib short course in Nicosia, Cyprus: Durability and retrofitting of concrete structures x | |||||
Contents: Structural Concrete 1/2011 | Structural Concrete | 1/2011 | Contents | ||
Contents: Structural Concrete 1/2011 | Structural Concrete | 1/2011 | Contents | ||
Cover Picture: Structural Concrete 1/2011 | Structural Concrete | 1/2011 | Cover Picture | ||
AbstractThird Millennium Bridge, Zaragoza, Spain (authors: Arenas & Asociados). One of the winners of the 2010 fib Awards for Outstanding Concrete Structures. In 2009, Juan José Arenas de Pablo was awarded the Gustave Magnel Gold Medal for its design. x | |||||
Balázs, György L. | Message from the President | Structural Concrete | 1/2011 | 1-2 | Editorials |
Sakai, Koji | Sustainability | Structural Concrete | 1/2011 | 3-4 | Editorials |
van Breugel, Klaas | Structural systems for protection against extreme events | Structural Concrete | 1/2011 | 5-12 | Articles |
AbstractTypical for extreme events is their multidisciplinary nature, and, consequently, solutions for protection against extreme events should mirror their inherent characteristics. This article discusses different types of hazards and extreme events in order to illustrate the complexity and scale of the problem. Concepts for judging hazards and associated risks are dealt with. Some features of the traditional risk concept are discussed, followed by a proposal for an extended risk concept, to be applied when dealing with extreme hazards. The emphasis will be on aspects that are typical of “low-probability/high-consequence risks”, particularly industrial risks. The potential role of structural (concrete) protective systems for mitigating the consequences of industrial accidents is emphasized. Throughout this article, the role of structural designers and their possible contribution to the debate on adequate protection against extreme events is addressed. x | |||||
Hájek, Petr; Fiala, Ctislav; Kynclová, Magdaléna | Life cycle assessments of concrete structures - a step towards environmental savings | Structural Concrete | 1/2011 | 13-22 | Articles |
AbstractConsidering the volume of concrete produced and the number of concrete structures built, the problem of the associated environmental impact forms a significant part of the entire global problem of sustainable development. Utilization of environmentally optimized concrete structures thus creates a potential for increasing the quality of construction and consequently a reduction of the environmental impact. A life cycle assessment (LCA) is a complex, multi-parametric assessment of the environmental impact of the structure over its whole life cycle. It covers, in one assessment process, all the essential environmental issues, including CO2 emissions, energy consumption, water consumption, waste generation, etc. In the case of concrete, selected criteria should support the design and construction of high-quality and at the same time environmentally friendly concrete structures. The principal problem is to collect relevant environmental input data for specific concrete types plus transport and production processes which can be used in the LCA procedure. x | |||||
Glavind, Mette | Green concrete structures | Structural Concrete | 1/2011 | 23-29 | Articles |
AbstractThere are numerous ways of improving concrete structure's environmental performance. An overview of these are presented and exemplified in the present article. They include choice of raw materials, mix design of the concrete, production processes, construction processes, design and use during service life and the end-of-life demolition-crushingreuse. Thus the whole life cycle is considered. This will be the key content of the future fib 3.8 guidelines on green concrete structures which will also include some background information and specific benchmark data. x | |||||
Kawai, Kenji | Application of performance-based environmental design to concrete and concrete structures | Structural Concrete | 1/2011 | 30-35 | Articles |
AbstractThe environmental impact and the effect of its reduction must be assessed quantitatively if we are to show clearly the effect of lowering the environmental impact of concrete and concrete structures. One of the quantitative evaluation methods is to regard and verify the environmental impact of concrete and concrete structures as an environmental performance in accordance with the performance-based design method. This article briefly describes the performance-based environmental design method prepared by fib Commission 3 TG3.6 and shows an example of the application of the design method applied to a concrete structure. x | |||||
Noguchi, Takafumi; Kitagaki, Ryoma; Tsujino, Masato | Minimizing environmental impact and maximizing performance in concrete recycling | Structural Concrete | 1/2011 | 36-46 | Articles |
AbstractThe sheer amount of concrete in use and in stock compared with other building materials throws up environmental issues such as the huge amount of CO2 emitted when cement and concrete are produced and transported and the enormous amount of waste generated when concrete is disposed of. In addition, we are beginning to deplete aggregate resources at a fast rate. Concrete has conventionally been regarded as being difficult to recycle. The construction industry has addressed these problems and carried out research and development regarding the recycling of concrete since the 1970s. Recycling technology has been shifting from simple crushing into scrubbing with some preparations to produce high-quality recycled aggregate for structural concrete, and recycling of concrete in a completely closed loop has now become technically feasible. This paper reviews the development history of recycling technologies in Japan from the viewpoint of the properties of recycled aggregate and recycled aggregate concrete as well as the environmental impact such as CO2 emissions and waste generation in recycling. The paper also presents the outline of completely recyclable concrete, with which closed-loop circulation of component materials is realized. x | |||||
Ueda, Tamon | International code harmonization: the role of the Asian Concrete Model Code | Structural Concrete | 1/2011 | 47-54 | Articles |
AbstractMany national codes in Asia are heavily influenced by those from either Europe or the USA. The climatic, technological and economic conditions together with the material properties in Asia are, however, quite different from those in Europe and the USA, and even different among Asian countries. Thus, many Asian countries need their own national codes with suitable concepts and technologies. At the same time, many construction projects in Asia are carried out in multi-national environments in which various national codes are applied, meaning that international code harmonization is necessary. In order to work for the global issue, such as the construction of a sustainable world, Asia, as the largest economic zone in the 21st century, should take on a leading role. For this purpose, international code harmonization with the new direction of life cycle management (LCM) would provide an efficient way. x | |||||
fib-news 1 (2011) | Structural Concrete | 1/2011 | 55-61 | fib-news | |
Abstract• fib Symposium Prague: Excellence and efficiency x | |||||
Cover Picture: Steel Construction - Design and Research 1/2008 | Steel Construction - Design and Research | 1/2008 | Cover Picture | ||
Content: Steel Construction - Design and Research 1/2008 | Steel Construction - Design and Research | 1/2008 | Contents | ||
Greiner, R.; Beg, D.; Fink, J. | Editorial: Steel Construction - Design and Research 1/2008 | Steel Construction - Design and Research | 1/2008 | 1 | Editorials |
Kurrer, K.-E. | Steel Construction - Design and Research | Steel Construction - Design and Research | 1/2008 | 2 | Editorials |
Majowiecki, M. | The Free Form Design (FFD) in steel structural architecture - aesthetic values and reliability | Steel Construction - Design and Research | 1/2008 | 3-15 | Articles |