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Application of cords in the structural conservation of historic buildings
Języki publikacji
Abstrakty
W pracy omówiono wybrane zastosowania cięgien w konserwacji konstrukcyjnej obiektów historycznych, zwracając szczególną uwagę na efektywność poszczególnych metod wzmacniania. Przedstawiono techniki oparte na aplikacji cięgien w spoinach filarów ceglanych oraz murów o licu nieregularnym, które stanowią rozwiązania akceptowalne z punktu widzenia doktryn konserwatorskich. Zwrócono także uwagę na problematykę uwzględniania wzmocnienia w podejściach analitycznych. Przedstawiono również wybrane wyniki badań własnych, przeprowadzonych na modelach kamiennych oraz pierścieniach ceglanych.
The paper discusses selected applications of cords in the structural conservation of historic buildings, paying special attention to the effectiveness of individual strengthening methods. Techniques based on application of cords in joints of brick pillars and walls with irregular faces are presented, which are solutions acceptable from the perspective of conservation doctrines. Attention was also paid to the problems of including strengthening in analytical approaches. The paper also presents selected results of own research carried out on stone models and brick rings.
Czasopismo
Rocznik
Tom
Strony
124--136
Opis fizyczny
Bibliogr. 26 poz., fot., rys.
Twórcy
autor
- Zakład Materiałów Budowlanych, Konstrukcji Drewnianych i Zabytkowych, Wydział Budownictwa Lądowego i Wodnego, Politechnika Wrocławska
autor
- Zakład Materiałów Budowlanych, Konstrukcji Drewnianych i Zabytkowych, Wydział Budownictwa Lądowego i Wodnego, Politechnika Wrocławska
autor
- Zakład Materiałów Budowlanych, Konstrukcji Drewnianych i Zabytkowych, Wydział Budownictwa Lądowego i Wodnego, Politechnika Wrocławska
autor
- Zakład Materiałów Budowlanych, Konstrukcji Drewnianych i Zabytkowych, Wydział Budownictwa Lądowego i Wodnego, Politechnika Wrocławska
Bibliografia
- [1] Jurina L. Prove a collassosu colonne cerchiate in muratura. In: IF CRASC’09 Conference, Naples, 2009.
- [2] Borri A., Castori G., Corradi M. Masonry Confinement using Steel Cords. Journal of Materials in Civil Engineering 2013;25(12):1910–1919.
- [3] Borri A., Castori G., Corradi M. Strengthening of fair face masonry columns with steel hooping. Materials and Structures 2014;47:2117–2130.
- [4] Borri A., Castori G., Corradi M. Behavior of masonry columns repaired using small diameter cords. Key Engineering Materials 2015;624:254–265.
- [5] Fossetti M., Minafo G. Comparative experimental analysis on the compressive behaviour of masonry columns strengthened by FRP, BFRCM or steel wires. Composites Part B 2017;112:112–124.
- [6] Binda L., Modena C., Saisi A., Folli R.T., Valluzzi M.R. Bed joints structural repointing of historic masonry structures. In: Proc. 9th Canadian Masonry Symposium Spanning the centuries, Fredericton, New Brunwswick, 2001.
- [7] Borri A., Corradi M., Speranzini E., Giannantoni A. Rubble stone masonry strengthened using “reticolatus” system. Wiadomości Konserwatorskie – Journal of Heritage Conservation 2009;26:147–158.
- [8] Borri A., Castori G., Corradi M., Speranzini E. Shear behavior of unreinforced and reinforced masonry panels subjected to in situ diagonal compression tests. Construction and Building Materials 2011;25:4403–4414.
- [9] Corradi M., Borri A., Castori G., Sisti R. The Reticulatus method for shear strengthening of fair-faced masonry. Bulletin of Earthquake Engineering 2016;14:3547–3571.
- [10] Paradiso M., Galassi S., Borri A., Sinicropi D. “Reticolatus”: An innovative reinforcement for irregular masonry. A numeric model. Structures and Architecture: Concepts, Applications and Challenges 2013:841–848.
- [11] Borri A., Castori G., Corradi M., Sisti R. Masonry wall panels with GFRP and steel-cord strengthening subjected to cyclic shear: An experimental study. Construction and Building Materials 2014;56:63–73.
- [12] Gattesco N., Amadio C., Bedon C. Experimental and numerical study on the shear behavior of stone masonry walls strengthened with GFRP reinforced mortar coating and steel-cord reinforced repointing. Engineering Structures 2015;90:143–157.
- [13] Borri A., Corradi M., Speranzini E. Consolidation and reinforcement of stone walls using a reinforced repointing grid. In: Proc. 6th international conference on SAHC, Bath, 2008.
- [14] Quagliarini E., Scalbi A., Monni F., Lenci S. A Novel and Sustainable Application of Basalt Fibers for Strengthening Unreinforced Masonry Walls. Journal of Natural Fibers 2017;14:97–111.
- [15] Borri A., Corradi M., Speranzini E., Giannantoni A. Reinforcement of Historic Masonry with High Strength Steel Cords. Masonry Int. 2010;23(3):79–90.
- [16] Borri A., Corradi M., Speranzini E., Giannantoni A. A reinforced repointing grid for strengthening historic stone masonry walls. In: Proc. 8th International Masonry Conference, Dresden, 2010.
- [17] Csikai B., Ramos L.F., Basto P., Moreira S., Lourenco P.B. Flexural out-of-plane retrofitting technique for masonry walls in historical constructions. In: Proc. 9th International Conference on SAHC, Mexico City, 2014.
- [18] Quagliarini E., Monni F., Bondioli F., Lenci S. Basalt fiber ropes and rods: Durability tests for their use in building engineering. Journal of Building Engineering 2016;5:142–150.
- [19] Quagliarini E., Monni F., Lenci S., Bondioli F. Tensile characterization of basalt fiber rods and ropes: A first contribution. Construction and Building Materials 2012;34:372–380.
- [20] Quagliarini E., Monni F., Greco F., Lenci S. Flexible repointing of historical facing-masonry column-type specimens with basalt fibers: A first insight. Journal of Cultural Heritage 2017;24:165 170.
- [21] Monni F., Quagliarini E., Lenci S. Basalt fibre continuous stitchings for strengthening the dry stone masonry of the Lossetti Tower in Beura-Cardezza (Italy). Tema: Technology, Engineering, Materials and Architecture 2017;3(1):137–148.
- [22] Monni F., Quagliarini E., Lenci S. A basalt ropes: a new product for the rehabilitation of historical masonry. International Journal of Sustainable Construction 2014;2(1):61–69.
- [23] Monni F., Quagliarini E., Lenci S. Dry Masonry Strengthening through Basalt Fibre Ropes: Experimental Results against Out-of-Plane Actions. Key Engineering Materials 2015;624:584–594.
- [24] Monni F., Quagliarini E., Lenci S., Scalbi A. Strengthening masonry through basalt fi bre stitchings: A sustainable and reversible way of practice. In: Scienza e Beni Culturali, Bressanone, 2014.
- [25] Quagliarini E., Monni F., Lenci S. Strengthening three-leaf masonry panel with basalt fibre ropes: first experimental data. In: Proc. 5th International Congress on ”Science and Technology for the Safeguard of Cultural Heritage in the Mediterranean Basin”, Istanbul, 2011.
- [26] CNR-DT 200/2004 Guide for the design and construction of externally bonded FRP systems for strengthening of existing structures. Technical Document No. 200/2004, Italian National Research Council, Rome, 2004.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-54d3bdb7-e23e-49d0-b2e9-cf7940af9621