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Anchorage by fasteners and composite structures of steel and concrete have seen dramatic progress in research, technology and application over the past decades. The understanding of the fundamental principles underlying both disciplines has significantly improved. Concurrently, there has been rapid growth in the development of sophisticated new products and the establishment of international directives and codes to ensure their safe and economical use in a wide range of engineered structures. Although they deal with very similar problems, the two disciplines have developed independently from each other. To optimize the use of composite structures and fastenings to concrete, however, it is necessary to have knowledge of both: the local behavior of the fastening system and the global behavior of the structure. It became apparent that a forum offering the opportunity to expand and to exchange experience in the field of connecting steel and concrete would benefit all involved. Furthermore this forum would aid in the rapid dissemination of new ideas, technologies and solutions as well as explore new areas of research.This book forms the Proceedings of the 2 Symposium on “Connections between Steel and Concrete”. As the 1 Symposium in 2001 it brought together leading experts from all facets of the research, design, construction and anchor manufacturing community from around the world. Their lectures covered the topics:- test methods- behavior and design- dynamic loading: shock, earthquake, fatigue- durability- exceptional applications, strenghtening and structures- related topicsIn total 129 papers are gathered in these 2 volumes.
Structural Steel Design to Eurocode 3 and AISC Specifications deals with the theory and practical applications of structural steel design in Europe and the USA. The book covers appropriate theoretical and background information, followed by a more design‐oriented coverage focusing on European and United States specifications and practices, allowing the reader to directly compare the approaches and results of both codes. Chapters follow a general plan, covering: A general section covering the relevant topics for the chapter, based on classical theory and recent research developments A detailed section covering design and detailing to Eurocode 3 specification A detailed section covering design and detailing to AISC specifications Fully worked examples are using both codes are presented. With construction companies working in increasingly international environments, engineers are more and more likely to encounter both codes. Written for design engineers and students of civil and structural engineering, this book will help both groups to become conversant with both code systems.
Surveys the leading methods for connecting structural steel components, covering state-of-the-art techniques and materials, and includes new information on welding and connections. Hundreds of detailed examples, photographs, and illustrations are found throughout this handbook. --from publisher description.
The catastrophic earthquakes of the last decades (Mexico City, 1985; Loma Prieta, 1989; Northridge, 1994; Kobe, 1995) have seriously undermined there putation of steel structures, which in the past represented the most suitable solution for seismic resistant structures. Even if in very few cases, the performance of steel joints and members was unexpectedly bad, showing that it was due to some lacks in the current design concept. As a consequence of the lessons learned from the above dramatic events, many progress has been recently achieved in the conception, design and construction, by introducing the new deals of the performance based design, including the differentiation of earthquaketypes and considering all factor influencing the steel structure behaviour under strong ground motions. In this scenario, the aim of the book is to transfer the most recent achievements into practical rules for a safe design of seismic resistant steel structures. The seven Chapters cover the basic principles and design criteria for seismic resistant steel structures, which are applied to the main structural typologies, like moment resistant frames, braced frames and composite structures with particular reference to connections and details.
Mechanics of Structures and Materials: Advancements and Challenges is a collection of peer-reviewed papers presented at the 24th Australasian Conference on the Mechanics of Structures and Materials (ACMSM24, Curtin University, Perth, Western Australia, 6-9 December 2016). The contributions from academics, researchers and practising engineers from Australasian, Asia-pacific region and around the world, cover a wide range of topics, including: • Structural mechanics • Computational mechanics • Reinforced and prestressed concrete structures • Steel structures • Composite structures • Civil engineering materials • Fire engineering • Coastal and offshore structures • Dynamic analysis of structures • Structural health monitoring and damage identification • Structural reliability analysis and design • Structural optimization • Fracture and damage mechanics • Soil mechanics and foundation engineering • Pavement materials and technology • Shock and impact loading • Earthquake loading • Traffic and other man-made loadings • Wave and wind loading • Thermal effects • Design codes Mechanics of Structures and Materials: Advancements and Challenges will be of interest to academics and professionals involved in Structural Engineering and Materials Science.
Construction systems reduced to the smallest possible number of identical elements have long been used by architects to build structures as well as dismantle and change them as quickly, efficiently, and economically as possible. Think of the architecture of the nomads, the Crystal Palace designed by the architect John Paxton for the London World’s Fair of 1851, or the modern construction systems of the nineteenth and twentieth centuries in steel, concrete, and wood. Coupled with modern digital planning and production methods, modular precast construction systems that are adaptable for many combinations and capable of being combined with one other will play an increasingly important role in architecture in the future. The volume Components and Systems offers an in-depth and clearly organized presentation of the various types of precast building components – from semifinished products to building with components, open and closed systems, and skeleton and panel construction all the way to spatial cell constructions. The systems are accompanied by detailed drawings and color photographs. Discussions of transporting and assembling the various systems round off the topic and make this book an indispensable practical companion. Seit jeher werden in der Architektur auf möglichst wenige, gleiche Elemente reduzierte Bausysteme verwendet, um möglichst schnell, effizient und ökonomisch ein Bauwerk errichten oder auch abbauen und verändern zu können. Man denke an die Architektur der Nomaden, den Kristallpalast, der 1851 anlässlich der in London stattfindenden Weltausstellung von dem Architekten John Paxton entworfen wurde, oder die modernen Bausysteme des 19. und 20. Jahrhunderts in Stahl, Beton oder Holz. Elementierte, vorgefertigte, für viele Kombinationen anpassungsfähige und untereinander kombinierbare Systeme werden zukünftig, gekoppelt mit modernen digitalen Planungs- und Produktionsmethoden, einen immer wichtigeren Aspekt in der Architektur darstellen. Der neue Band Elemente und Systeme zeigt fundiert und übersichtlich die verschiedenen Arten vorgefertigter Bauteile auf – von Halbfabrikaten über das Bauen mit Komponenten, offenen und geschlossenen Systemen, Skelett- und Paneelbauweisen bis zu Raumzellenkonstruktionen. Ergänzt werden die Systeme durch detaillierte Zeichnungen und Farbfotos. Transport und Montage der verschiedenen Systeme runden das Thema ab und machen dieses Buch in der Praxis unverzichtbar.