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Abstrakty
This paper describes a case of the church, which for nearly 70 years was exposed to the impact of 26 mining exploitations conducted under the church or very close to the church at different depths. These caused damage in the form of superficial cracks of vaults and walls as well as the loosening of the front layer of stone façade of towers. The construction has been preserved due to the continuous monitoring and numerous repairs and renovations. Currently, there is no mining exploitation under the church.
Czasopismo
Rocznik
Tom
Strony
87--111
Opis fizyczny
Bibliogr. 31 poz., fot., rys., wykr.,
Twórcy
autor
- Silesian University of Technology, Faculty of Civil Engineering, Gliwice, Poland
Bibliografia
- 1. Calvo-Serrano, MA, Castillejo-González, IL, Montes-Tubío, F and Mercader-Moyano, P 2020. The Church Tower of Santiago Apóstol in Montilla: An Eco-Sustainable Rehabilitation Proposal. Sustainability 12.
- 2. Ciesielski, R 1988. Nowe możliwości analizy i diagnostyki budowli zabytkowych [New possibilities of analysing and diagnosing historic buildings]. Inżynieria i Budownictwo 9, 470- 476. (in Polish).
- 3. Ciesielski, R 1998. Obciążenia wyjątkowe budowli zabytkowych [Exceptional load on architectural monuments]. IV Konferencja Naukowo-Techniczna: Inżynieryjne Problemy Odnowy Staromiejskich Zespołów Zabytkowych Rew-Inż. [4th Science and Technology Conference: Engineering Problems of Renewal of Old Town Historic Complexes of Buildings Rew-Inż] Kraków, 1998, Volume 1, 135-148. (in Polish).
- 4. Domasłowski, W and Łukaszewicz, JW 1996. Problemy konserwacji murów ceglanych [Problems with restoration of brick walls]. Ochrona Zabytków 195, 351-358. (in Polish).
- 5. Drobiec, Ł, Jasiński, R and Piekarczyk, A 2013. Konstrukcje Murowe według Eurokodu 6 i norm związanych [Masonry structures according to Eurocode 6 and related standards]. Volume 1. Warszawa, PWN Publishing House. (in Polish).
- 6. Drobiec, Ł, Jasiński, R and Mazur, W 2020. The Use of Non-Destructive Testing (NDT) to Detect Bed Joint Reinforcement in AAC Masonry. Applied Sciences, 10.
- 7. Drobiec, Ł 2007. Przyczyny uszkodzeń murów [Causes of masonry damage]. XXII Ogólnopolska Konferencja – Warsztat Pracy Projektanta Konstrukcji [22nd Polish Conference - Workshop of Structure Designers], Szczyrk, 7-10 March 2007, Volume I, 105-147. (in Polish).
- 8. Drobiec, Ł 2015. Naprawa rys i wzmocnienia murowanych ścian [Repairs of cracks and strengthening of masonry walls]. XXX Jubileuszowe Ogólnopolskie Warsztaty Pracy Projektanta Konstrukcji, [30th Polish Jubilee Workshop of Structure Designers] Szczyrk 25-28 March 2015, Volume I, 323-398.
- 9. Drobiec, Ł 2017. Limitation of cracking in AAC masonry under the window zone. Mauerwerk 21, 332-342.
- 10. Drobiec, Ł 2019. Analysis of AAC walls subjected to vertical. Mauerwerk 23, 387-403.
- 11. Drobiec, Ł 2020. Behaviour of stitching bars in the masonry wall. In: Brick and Block Masonry – From Historical to Sustainable Masonry. Taylor and Francis Group. London, s. 979-986.
- 12. Drobiec, Ł, Jasiński, R and Kubica, J 2008. Strengthening of cracked compressed masonry using different types of reinforcement located in the bed joints. ACEE Architecture, Civil Engineering, Environment, 4, 39-48.
- 13. Gentile, C and Saisi, A 2007. Ambient vibration testing of historic masonry towers for structural identification and damage assessment, Construction and Building Materials 21, 1311–1321.
- 14. Gentile, C, Saisi, A and Cabboi, A 2015. Structural Identification of a Masonry Tower Based on Operational Modal Analysis. International Journal of Architectural Heritage 9, 98-100.
- 15. Ivorra, S and Pallares, FJ 2006. Dynamic investigation on a masonry bell tower, Engineering Structures 25, 660–667.
- 16. Janowski, Z 1988. Nośność i trwałość konstrukcji murowych w obiektach zabytkowych [Load capacity and durability of masonry structures in architectural monuments]. IV Konferencja Naukowo-Techniczna. Inżynieryjne Problemy Odnowy Staromiejskich Zespołów Zabytkowych Rew-Inż. [4th Science and Technology Conference: Engineering Problems of Renewal of Old Town Historic Complexes of Buildings Rew-Inż] Kraków, 23-40. (in Polish).
- 17. Jasieńko, J, Łodygowski, T and Rapp, P 2006. Naprawa, konserwacja i wzmacnianie wybranych, zabytkowych konstrukcji ceglanych [Repair, maintenance and strengthening works of selected historic brick buildings]. Wrocław, Dolnośląskie Wydawnictwo Edukacyjne. (in Polish).
- 18. Kujawa, M, Lubowiecka, I and Szymczak, C 2020. Finite element modelling of a historic church structure in the context of a masonry damage analysis. Engineering Failure Analysis 107.
- 19. Małyszko, L and Orłowicz, R 2000. Konstrukcje murowe. Zarysowania i naprawy [Masonry structures. Cracks and repairs]. Olsztyn, Wydawnictwo Uniwersytetu Warmińsko-Mazurskiego. (in Polish).
- 20. Mason, JA 2008. Strengthening of a Historic Unreinforced Masonry Church Tower. Practice Periodical on Structural Design and Construction 13.
- 21. Mazzolani, FM and Mandara, A 2002. Modern trends in the use of special metals for the improvement of historical and monumental structures. Engineering Structures 24, 43–856.
- 22. Mosoarca, M, Keller, AI and Bocan, C 2019. Failure analysis of church towers and roof structures due to high wind velocities. Engineering Failure Analysis 100, 76–87.
- 23. Mosoarca, M, Keller, AI, Petrus, C and Racolta. 2017. Failure analysis of historical buildings due to climate change, Engineering Failure Analysis 82, 666–680.
- 24. Nowak, R and Orłowicz, R 2020. Testing of Chosen Masonry Arched Lintels. International Journal of Architectural Heritage.
- 25. Nowak, R, Orłowicz, R and Rutkowski, R 2020. Use of TLS (LiDAR) for Building Diagnostics with the Example of a Historic Building in Karlino. Buildings 10.
- 26. Orłowicz, R, Małyszko, L and Kindracki, J 1999. Morfologia uszkodzeń ścian i elementów wykończenia w konstrukcjach murowych [Morphology of damage to walls and finish elements in masonry structures]. XIV Ogólnopolska Konferencja Warsztat Pracy Projektanta Konstrukcji [14th Polish Conference - Workshop of Structure Designer], Volume 1, part 2, pp. 167-192 (in Polish).
- 27. Pająk, Z, Kubica, J, Starosolski, W and Drobiec, Ł 1998. Problemy zabezpieczenia na wpływy górnicze i pogórnicze obiektów sakralnych [Problems concerning protection of religious facilities against mining and post-mining impact]. IV Konferencja Naukowo-Techniczna Inżynieryjne Problemy Odnowy Staromiejskich Zespołów Zabytkowych „REW-INŻ. [4th Science and Technology Conference: Engineering Problems of Renewal of Old Town Historic Complexes of Buildings REW-INŻ] KRAKÓW 98”, 21-23 May 1998, pp. 171-178. (in Polish).
- 28. Pirchio, D et al. 2021. Integrated framework to structurally model unreinforced masonry Italian medieval churches from photogrammetry to finite element model analysis through heritage building information modelling. Engineering Structures 241.
- 29. Rucka, M, Wojtczak, E and Zielińska, M. Interpolation methods in GPR tomographic imaging of linear and volume anomalies for cultural heritage diagnostics. Measurement 154.
- 30. Runkiewicz, L and Rodzik, W 1990. Badania nieniszczące wytrzymałości murowanych obiektów zabytkowych [Non-destructive testing of the strength of historic masonry buildings]. Inżynieria i Budownictwo 47, 50- 52.
- 31. Tajchman, J and Najder, T 2006. Cement, beton i żelbet w zabytkach architektury – wady i zalety (wprowadzenie do problematyki konserwatorskiej) [Cement, concrete and reinforced concrete in architectural monuments - pros and cons (an introduction into the conservation issues)]. XXI Ogólnopolska Konferencja – Warsztat Pracy Projektanta Konstrukcji [21st Polish Conference - Workshop of Structure Designers], Szczyrk, 8-11 March 2006, Volume III, 145- 213. (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-69128703-e8b3-4adc-b41d-f1f8dc0584f6