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Discovering the unused potential of wood Holz wird meist als "traditioneller" Werkstoff wahrgenommen. Seine Materialeigenschaften ermöglichen längst jedoch die Gestaltung von Freiformen und hochkomplexen Strukturen. Das ursprünglich von Julius Natterer gegründete Holzlabor der ETH Lausanne erprobt heute unter der Leitung von Professor Wienand mit digitalen Berechnungs- und computergestützten Bearbeitungsmethoden die Herstellung von Origami-Strukturen, Rippenschalen, Gewebestrukturen und gekrümmten Paneelen.Diese Forschungsergebnisse werden in Prototypen erprobt, die so die Anwendungsmöglichkeiten für großmaßstäbliche Holzbauten anschaulich machen. Durch dieses Ausloten bislang ungenutzter Potenziale des Baustoffs Holz bietet dieses Buch einen spannenden und inspirierenden Ausblick auf eine neue Generation von Holzbauten.

Wooden-frame buildings. --- Structural frames. --- Framed structures --- Frames (Structures) --- Frames, Structural --- Frameworks (Structures) --- Structural analysis (Engineering) --- Structural design --- Structural engineering --- Timber buildings --- Timber-frame buildings --- Wood buildings --- Wood-frame buildings --- Wooden buildings --- Building, Wooden --- Buildings --- Framing (Building)

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Space frame structures --- Space (Architecture) --- Structural frames --- Space frame structures. --- Structural frames. --- Framed structures --- Frames (Structures) --- Frames, Structural --- Frameworks (Structures) --- Structural analysis (Engineering) --- Structural design --- Structural engineering --- Space structures --- Structures, Space frame --- Architecture --- Building --- Architecture and space --- Space and architectural mass --- Space in architecture --- City planning --- Composition, proportion, etc. --- Raumtragwerk. --- Raumtragwerk --- Räumliches Tragwerk --- Space frame structure --- Tragwerk --- Negative space (Architecture)

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This book is devoted to the discussion and studies of simple and efficient numerical procedures for large deflection and elasto-plastic analysis of steel frames under static and dynamic loading. In chapter 1, the basic fundamental behaviour and philosophy for design of structural steel is discussed, emphasising different modes of buckling and the inter-relationship between different types of analysis. In addition to this, different levels of refinement for non-linear analysis are described. An introduction is also given to the well-known P-&dgr; and P-&Dgr; effects. Chapter 2 presents the

Structural frames --- Structural analysis (Engineering) --- Steel, Structural. --- Design and construction. --- Structural steel --- Building materials --- Civil engineering --- Girders --- Building, Iron and steel --- Iron and steel bridges --- Iron, Structural --- Structural steel industry --- Architectural engineering --- Engineering, Architectural --- Structural mechanics --- Structures, Theory of --- Structural engineering --- Framed structures --- Frames (Structures) --- Frames, Structural --- Frameworks (Structures) --- Structural design

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This textbook presents the principal methods of stress analysis for the design of frame structures, beginning with a description of the basic criteria for probabilistic safety verification used in modern codes. The Force Method and the Displacement Method are dealt with, together with their applications to more common structural situations. A special chapter is dedicated to the second order analysis required for slender structures and for the elaboration of instability problems. In turn, a thorough set of numerical examples rounds out the text. Given its scope, the book offers an ideal learning resource for students of Civil and Building Engineering and Architecture, and a valuable reference guide for practicing structural design professionals.

Building construction. --- System safety. --- Building Construction and Design. --- Building Materials. --- Quality Control, Reliability, Safety and Risk. --- Safety, System --- Safety of systems --- Systems safety --- Accidents --- Industrial safety --- Systems engineering --- Prevention --- Structural frames --- Structural engineering --- Structural engineering. --- Engineering, Structural --- Structures, Engineering of --- Architecture --- Engineering --- Framed structures --- Frames (Structures) --- Frames, Structural --- Frameworks (Structures) --- Structural analysis (Engineering) --- Structural design --- Buildings—Design and construction. --- Building. --- Construction. --- Engineering, Architectural. --- Building materials. --- Quality control. --- Reliability. --- Industrial safety. --- Industrial accidents --- Industries --- Job safety --- Occupational hazards, Prevention of --- Occupational health and safety --- Occupational safety and health --- Prevention of industrial accidents --- Prevention of occupational hazards --- Safety, Industrial --- Safety engineering --- Safety measures --- Safety of workers --- System safety --- Dependability --- Trustworthiness --- Conduct of life --- Factory management --- Industrial engineering --- Reliability (Engineering) --- Sampling (Statistics) --- Standardization --- Quality assurance --- Quality of products --- Architectural materials --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials --- Materials --- Architectural engineering --- Construction --- Construction science --- Engineering, Architectural --- Construction industry --- Design and construction