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100   $a20180706d2012      uy             0
101 0 $aeng
135   $aur|||||||||||
181   $ctxt
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183   $acr
200 10$aStructural design in building conservation /$fDimitris Theodossopoulos
210  1$aAbingdon, Oxon ;$aNew York, N.Y. :$cRoutledge,$d2012.
215   $a1 online resource (272 p. ) $cill
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a0-415-47945-2 
311   $a0-415-47946-0 
320   $aIncludes bibliographical references and index.
327   $a1. Introduction 2. Theoretical Aspects in Structural Interventions 3. Structural Theory in Historic Buildings 4. Building Types and their Failure 5. Knowldge from Structural Assessment 6. Strengthening and repair tehcniques 7. Design interventions. Gazeteer of Case Studies. Bibliography. Index
330   $a'Structural Design in Building Conservation' deals with the design of structural interventions in historic buildings and shows how the associated technical choices affect the planning and architectural outcomes in a conservation project.
330   $bNo building is properly conserved if it is not structurally sound. Consequently architects, engineers and conservation officers need an adequate grounding in the technology, the materials and the historic origins of the building in order to complete a conservation project successfully. Structural Design in Building Conservation deals with design issues and technical choices, showing how they are integrated with the planning and architectural outcomes in a conservation project. It brings together theory with current conservation technology, discussing the possibilities of structural details and strategies in architectural expression. Case studies are central to this, and these are organised around such themes as the addition of roofs, requalification of space, strengthening and re-use of fabric, repristination, additions, completions, stiffness adjustments, and the correction of past mistakes. The reader is encouraged to examine the technical details of these real projects, and explore the possible solutions. The philosophy of structural interventions is introduced in the context of conservation theories and practices in various European countries. The main types of strengthening, repairs and interventions are explained using different building types, and the structural nature of the main elements to be strengthened (linear structures, frames, plates and shells) is explored in detail. Case studies included cover a very wide range of historic types and conversions, not only monumental masonry structures like neoclassical buildings, major temples, churches, public buildings and museums, but also more utilitarian structures like historic mills, early reinforced concrete structures and vaulting types. This is essential reading for all students of architectural conservation, and practicing architects and engineers who are involved in conservation projects. No building is properly conserved if it is not structurally sound. Consequently architects, engineers and conservation officers need an adequate grounding in the technology, the materials and the historic origins of the building in order to complete a conservation project successfully. Structural Design in Building Conservation deals with design issues and technical choices, showing how they are integrated with the planning and architectural outcomes in a conservation project. It brings together theory with current conservation technology, discussing the possibilities of structural details and strategies in architectural expression. Case studies are central to this, and these are organised around such themes as the addition of roofs, requalification of space, strengthening and re-use of fabric, repristination, additions, completions, stiffness adjustments, and the correction of past mistakes. The reader is encouraged to examine the technical details of these real projects, and explore the possible solutions. The philosophy of structural interventions is introduced in the context of conservation theories and practices in various European countries. The main types of strengthening, repairs and interventions are explained using different building types, and the structural nature of the main elements to be strengthened (linear structures, frames, plates and shells) is explored in detail. Case studies included cover a very wide range of historic types and conversions, not only monumental masonry structures like neoclassical buildings, major temples, churches, public buildings and museums, but also more utilitarian structures like historic mills, early reinforced concrete structures and vaulting types. This is essential reading for all students of architectural conservation, and practicing architects and engineers who are involved in conservation projects.
606   $aHistoric buildings$xConservation and restoration
606   $aArchitecture$xConservation and restoration
608   $aElectronic books.
615  0$aHistoric buildings$xConservation and restoration.
615  0$aArchitecture$xConservation and restoration.
676   $a690/.24
700   $aTheodossopoulos$b Dimitris.$0977262
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910465860303321
996   $aStructural design in building conservation$92226196
997   $aUNINA