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Prepared by the Task Committee on Double-Layer Grids of the Committee on Special Structures of the Structural Engineering Institute of ASCE. This report provides guidelines for the design of double-layer grids, a type of space frame. Space frames are three-dimensional, lattice-type structures that provide great rigidity and inherent redundancy. Space frames are one of the more efficient uses of structural materials, and they satisfy demand for large column-free areas. The most common example of a space frame is the double-layer grid, which consists of two parallel layers of top and bottom cords interconnected by inclined and/or vertical web members. This report provides an overview of double-layer grids and discusses their structural behavior. Various methods to analyze these structures?including static analysis, dynamic analysis, thermal analysis, and optimization analysis?are explored. This guide concludes with experimental studies involving double-layer grids and implications for design.
Hard Guidance on Preventing Disproportionate CollapseDisproportionate collapse is a pressing issue in current design practice. Numerous causes are possible - especially forms of extreme loading, such as blast, fire, earthquake, or vehicle collisions. But it is the mechanism and its prevention which are of especial interest and concern.After the Wor
A space frame is a three-dimensional framework for enclosing spaces in which all members are interconnected and act as a single entity. A benefit of this type of structure is that very large spaces can be covered, uninterrupted by support from the ground. John Chilton's book provides an up-to-date assessment of the use of space grid structures in buildings by reviewing methods of construction, various systems available and detailed studies of the use of space grids in modern buildings. The technical level is aimed at professional and student architects and engineers worldwide and it also serves as a useful construction manual. John Chilton is an engineer, currently teaching architectural students at Nottingham University where he is a senior lecturer. He has also undertaken considerable research in this field.
A space frame is a three-dimensional framework for enclosing spaces in which all members are interconnected and act as a single entity. A benefit of this type of structure is that very large spaces can be covered, uninterrupted by support from the ground. John Chilton's book provides an up-to-date assessment of the use of space grid structures in buildings by reviewing methods of construction, various systems available and detailed studies of the use of space grids in modern buildings. The technical level is aimed at professional and student architects and engineers worldwide and it also serves as a useful construction manual. John Chilton is an engineer, currently teaching architectural students at Nottingham University where he is a senior lecturer. He has also undertaken considerable research in this field.
Space frames provide a lightweight solution to the problem of creating large span enclosures free from obstructions. They are employed in many major construction projects across the world, as documented in this authoritatively written volume. This is the first in-depth book to present all instances and applications of space frames in various engineering schemes. It uses case studies and numerous illustrations to examine steel space frames from their design to their structural engineering performance. Analysis, Design and Construction of Steel Space Frames will be of particular use to practitioners through its use of various leading design codes, including the Eurocodes. Boasting an international authorship with wide experience in the research, development and manufacture of space frames, this book also draws contributions from leading practitioners and academics specialising in this area from across the globe.
The diversity of constructions included in this publication on space structures ranges from anten reflectors and masts positioned in space, to equally exciting terrestrial structures, notably large-span domes, barrel vaults, multi-layered grids, cable and membrane systems, and pneumatic structures. This collection of more than two hundred and twenty papers, presented in to volumes, is the work of leading international experts for presentation at the Fourth International Conference on Space Structures. These two volumes contain a prodigious amount of original and innovative information on space structures that will be of especial interest to engineers, architects and other professionals engaged in the planning, design, fabrication and erection of novel constructions.
These Proceedings are based on the Fifth International Conference on Space Structures, organised by the University of Surrey. Produced as a 2-volume set, they contain original and innovative information on space structures from leading engineers and architects from around the world.
The book introduces the comprehensive analysis methodology regarding progressive collapse, and the critical issues may happen in concrete structures. Main topics include: the influential parameters of the development of the main load-resisting mechanisms; the dynamic effects with sudden column removal scenarios; the contribution of non-structural components to improve the resilience of concrete structures; uncertainties in progressive collapse analysis. Based on the empirical research of the author and his team, the book provides valuable knowledge in the field of progressive collapse and bridges the gap between academic research and practice.
This book presents the select proceedings of the 2nd International Conference on Structural Health Monitoring & Engineering Structures (SHM&ES 2021) held at the University of Transport and Communications, Hanoi, Vietnam, during 13–14 December 2021. It covers the recent advances in the fields related to structural health monitoring, damage detection and assessment, non-destructive testing, inverse problems, optimization, artificial neural networks, and evaluation. This book will be useful for researchers and professionals working in the field of health monitoring of engineering structures.