http://www.colloquiam.com/wd/index.php?action=history&feed=atom&title=Traykova_Traykov_2021aTraykova Traykov 2021a - Revision history2026-05-11T04:57:13ZRevision history for this page on the wikiMediaWiki 1.27.0-wmf.10http://www.colloquiam.com/wd/index.php?title=Traykova_Traykov_2021a&diff=233445&oldid=prevScipediacontent: Scipediacontent moved page Draft Content 480217062 to Traykova Traykov 2021a2021-11-30T13:43:03Z<p>Scipediacontent moved page <a href="/public/Draft_Content_480217062" class="mw-redirect" title="Draft Content 480217062">Draft Content 480217062</a> to <a href="/public/Traykova_Traykov_2021a" title="Traykova Traykov 2021a">Traykova Traykov 2021a</a></p>
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</td></tr></table>Scipediacontenthttp://www.colloquiam.com/wd/index.php?title=Traykova_Traykov_2021a&diff=233444&oldid=prevScipediacontent: Created page with "== Abstract == Earthquakes are some of the most serious causes of degradation and destruction of the heritage buildings. The earthquake can cause different damages, directly..."2021-11-30T13:43:00Z<p>Created page with "== Abstract == Earthquakes are some of the most serious causes of degradation and destruction of the heritage buildings. The earthquake can cause different damages, directly..."</p>
<p><b>New page</b></p><div>== Abstract ==<br />
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Earthquakes are some of the most serious causes of degradation and destruction of the heritage buildings. The earthquake can cause different damages, directly and indirectly to the historical buildings and their elements. The biggest part of the heritage buildings was built essentially following empirical rules, refining the proportions of structural elements by an intuitive perception of the structural behaviour. In most cases, this trial took only static actions into consideration, so, since seismic horizontal actions modify the behaviour in a significant way, an earthquake may frequently produce cracks and local collapses. Seismic assessment of heritage buildings is relevant for any preservation project. Using specific investigations and checks, the best retrofit method can be chosen. Based on different case studies, the aim of the paper is to recommend useful framework and easy applicable assumptions for practicing engineers to evaluate the vulnerability of the historic structures and the possibilities of further steps in their development. Seismic assessment of historic buildings remains a challenging task. There is a high level of complexity compared with the <br />
assessment of standard buildings. The assessment and the diagnosis of heritage buildings in seismic areas require an extensive knowledge on the structural typologies and behaviour of heritage buildings. The investigation on previous damages from earthquakes is very important. Adequate and realistic computer modelling of complicated historic structures requires significant designers’ expertise. It is probably best to start with the simplest realistic model and then, if necessary, develop a model that reflects more structural features and complexity. The presented paper investigates the challenges posed by, and solutions needed, to ensure the structural longevity of historic structures. Finding the potential for future development of heritage buildings is an important task of the contemporary construction sector. The paper presents only 3 specific case studies but based on the results it is possible to produce some more general recommendations concerning the seismic assessment, the possibility to identify the vulnerability of historic structures and to give the recommendations for extending the service life of Heritage buildings.<br />
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== Full document ==<br />
<pdf>Media:Draft_Content_480217062p538.pdf</pdf><br />
== References ==<br />
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[2] Kostov M., Kaneva A., Vaseva E., Stefanov D., Varbanov G., Koleva N. An advanced approach to earthquake risk scenarios of Sofia, International Conference on Civil Engineering Design and Construction, Varna, Bulgaria, pp. 245-251, (2006) <br />
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[3] Bruhwiler E. Extending the service life of Swiss bridges of cultural value. Engineering History and Heritage, Vol.165, issue EH4, pp. 235-240, (2012) <br />
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[4] Traykov A. contributor Rehabilitation of the Complex Reinforced Concrete Shell Roof Structure of an Industrial Building, Pelke E., Bruhwiler E. IABSE Structural Engineering Documents SED15: Engineering History and Heritage Structures – Viewpoints and Approaches, IABSE 2017, Zurich, Switzerland, pp.67-70, (2017) <br />
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[5] Sap 2000 – Computational program <br />
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[6] BDS EN 1996-1-1: Design of masonry structures – Part 1-1: General rules for reinforced and unreinforced masonry structures (EC 6) <br />
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[7] BDS EN 1991-1-1/NA: Actions on structures- Part 1-1: General actions -Densities, selfweight, imposed loads for buildings (EC 1) <br />
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[8] Ordinance № РД-02-20-2/ 12.01.2012 and revised edition 2014 for the design in seismic regions <br />
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[9] BDS EN 1998-1: Design of structures for earthquake resistance- Part 1: General rules, seismic actions and rules for buildings (EC 8) <br />
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[10] Technical archives of Sofia Municipality – As built drawings <br />
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[11] Personal photo archive <br />
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[12] Traykova M., Boiadjieva R. Assessment and rehabilitation of the structure of existing reinforced concrete tank, 37th IABSE Symposium, Madrid, Spain, pp. 543-549, (2014)</div>Scipediacontent