Historical Earthquake-Resistant Timber Framing in the Mediterranean Area HEaRT 2015 / [electronic resource] : edited by Helena Cruz, Jos�e Saporiti Machado, Alfredo Campos Costa, Paulo Xavier Candeias, Nicola Ruggieri, Jos�e Manuel Catarino. - VIII, 468 p. 344 illus. online resource. - Lecture Notes in Civil Engineering, 1 2366-2557 ; . - Lecture Notes in Civil Engineering, 1 .

Cooperating Timber and Stone Antiseismic frames in Historic Structures of Greece -- The Role of a Post-Byzantine Timber Roof Structure in the Seismic Behavior of a Masonry Building - The Case of a Unique Type of Timber-Roofed Basilicas in Cyprus (15th-19th century) -- Historic Earthquake-Resistant Constructive Techniques Reinforced by Wooden Logs in Algeria -- A Comparative Evaluation of the Results of Two Earthquakes: Istanbul and Lisbon Earthquake in 18th Century -- Some Examples of Turk�sh Houses W�th Wooden Frame in the Se�sm�c Zone Anatol�a -- Traditional Timber Housing Structure in Zeyrek -- Possible Precursors of Pombalino cage -- Local Seismic Cultures: The use of timber frame structures in the South of Portugal -- The use Of Wood With an Anti-Seismic Function in the Architecture of Palermo During the 18th Century.

This book presents a selection of the best papers from the HEaRT 2015 conference, held in Lisbon, Portugal, which provided a valuable forum for engineers and architects, researchers and educators to exchange views and findings concerning the technological history, construction features and seismic behavior of historical timber-framed walls in the Mediterranean countries. The topics covered are wide ranging and include historical aspects and examples of the use of timber-framed construction systems in response to earthquakes, such as the gaiola system in Portugal and the Bourbon system in southern Italy; interpretation of the response of timber-framed walls to seismic actions based on calculations and experimental tests; assessment of the effectiveness of repair and strengthening techniques, e.g., using aramid fiber wires or sheets; and modelling analyses. In addition, on the basis of case studies, a methodology is presented that is applicable to diagnosis, strengthening and improvement of seismic performance and is compatible with modern theoretical principles and conservation criteria. It is hoped that, by contributing to the knowledge of this construction technique, the book will help to promote conservation of this important component of Europe's architectural heritage.

9783319394923

10.1007/978-3-319-39492-3 doi


Engineering.
Structural mechanics.
Engineering geology.
Engineering--Geology.
Foundations.
Hydraulics.
Building repair.
Buildings--Repair and reconstruction.
Light construction.
Steel construction.
Lightweight construction.
Technology--History.
Structural materials.
Engineering.
Light Construction, Steel Construction, Timber Construction.
Geoengineering, Foundations, Hydraulics.
Structural Mechanics.
Building Repair and Maintenance.
History of Technology.
Structural Materials.

TH1-9745

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