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Polanski S.; Geometria powłok budowlanych (Building shell geometry). PWN, Warszawa 1986 (In Polish)Search in Google Scholar
Davis, J. M., Bryan, E. R.; Manual of stressed skin diaphragm design. London; Granada, 1982Search in Google Scholar
Gergely P., Banavalkar, P. V., Parker, J. E.; The analysis and behavior of thin-steel hyperbolic paraboloid shells, A Research Project Sponsored by the America Iron and Steel Institute, Report No.338, September 1971. New York; Ithaca, 1971Search in Google Scholar
Abramczyk J.; Multi-segment shell structures. Lightweight Structures in Civil Engineering, Proc. XVIII Intern. Sem. of IASS Polish Chapter, MICRO-PUBLISHER-C-P Jan B. Obrebski, Warszawa, 2012; p.38-47Search in Google Scholar
Reichhart A.; Ksztaltowanie geometryczne i konstrukcyjne powlok z blach faldowych (Geometrical and structural shaping building shells made up of folded sheets). Rzeszow: Publishing House of Rzeszow University of Technology, 2002 (In Polish)Search in Google Scholar
Prokopska A.; Application of Morphological Analysis Methodology in Architectural Design, Journal of Advanced Engineering, Vol.41, No.1, Czech Technical University In Prague, Acta Polytechnica, 2001; p.46-5410.14311/194Search in Google Scholar
Prokopska A., Abramczyk J., Gotkowska E.; Architectural systems of buildings defined morphologically by their shell roof forms, Lightweight Structures in Civil Engineering; Proc. XXI Intern. Sem. of IASS Polish Chapter, Z. Bieniek & R. Tarczewski, Rzeszow 2015: p.15-21Search in Google Scholar
Blaszczynski T.; Dachy. Podstawy projektowania i wykonawstwa (Roofs. Basic principles of designing and erecting). Dolnoslaskie Wydawnictwo Edukacyjne, 2014 (in Polish)Search in Google Scholar
Abramczyk J.; Specificity of shaping light gauge steel shells, Proc. II Intern. Conf. Structures and Architecture, New concepts, applications and challenges, Guimaraes, Portugal, 2013; pp.1443–1450. DOI: 10.1201/b15267-20110.1201/b15267-201Search in Google Scholar
Abramczyk J.; Folded sheet deformations – possibility and restrictions in shell shaping; Journal for presentation of interdisciplinary approaches in various fields, ITPB, Interdisciplinary in theory and practice, No 7, 2015; p.85-90Search in Google Scholar
Abramczyk J.; Free forms of light gauge steel shell structures. Lightweight Structures in Civil Engineering; Proc. XVIII Intern. Sem. of IASS Polish Chapter, MICRO-PUBLISHER-C-P Jan B. Obrebski Warszawa 2012; p.48-53Search in Google Scholar
Abramczyk J.; An influence of shapes of folded sheets and their directrices on the forms of the building covers made up of these sheets. Rzeszow, Doctoral thesis, 2011Search in Google Scholar
Abramczyk J.; Principles of geometrical shaping effective shell structures forms, JCEEA t. XXXI, z. 61, nr 1/2014, Rzeszow 2014; p.5-21. DOI:10.7862/rb.2014.110.7862/rb.2014.1Search in Google Scholar
Reichhart A.; Principles of designing shells of profiled steel sheets, Local Seminar of IASS Polish Chapter, Warsaw - Czestochowa, 2004; p.200-205Search in Google Scholar
Brodka J., Garncarek R., Milaczewski K.; Blachy faldowe w budownictwie stalowym (Folded sheets in steel construction). Arkady, 1999 (In Polish)Search in Google Scholar
Maguncki K., Ostwald, M.; Optimal design of selected open cross sections of cold-formed thin-walled beams. Poznan; Publishing House of Poznan University of Technology, 200510.1016/B978-008044637-0/50194-3Search in Google Scholar
Reichhart A.; Specificity of shells made of elastic deformed profiled metal sheets, Proc. of the 4th Int. Colloq. on Structural Morphology, Delft, 2000; p.38-145Search in Google Scholar
Parker J. E.; Behavior of light gage steel hyperbolic paraboloid shells, Ph. D Dissertation, Cornell University, New York; Ithaca, 1968Search in Google Scholar
Walentynski R., Cybulski, R.; Stability analyses and experimental investigation of doubly corrugated steel arch panels. Architecture Civil Engineering Environment ACEE, Vol.5, No.4, 2012, p.79-82Search in Google Scholar
Wei-Wen Yu P.E.; Cold formed steel design, New York: Publishing John Wiley & Sons Inc, 2000Search in Google Scholar
Egger H., Fischer M., Resinger F.; Hyperschale aus Profilblechen, Der Stahlbau, H. 12, 1971Search in Google Scholar
Gioncu V., Petcu D.; Corrugated hypar structures. Proc. Intern. Conf. IASS / LSCE, Warsaw: MICRO-PUBLISHER-C-P Jan B. Obrebski, 1995; p.637-644Search in Google Scholar
Prokopska A.; Morphology of the Architectural Achievement. A Methodological Analysis of Selected Morphological Systems of the Natural and Architectural Environments Vol.7, No.1-2, Journal of Transdisciplinary Systems Science, Affiliation of the International Federation of Systems Research, Official Journal of Polish Systems Society, Editorial Office: Publishing House of Wroclaw University of Technology, Copyright by Polish Systems Society, 2002, p.3-113Search in Google Scholar
Prokopska A.; Metodologia projektowania architektonicznego: fazy wstępne procesu architektonicznego (Methodology of the Architectural Design. Preliminary phases of the Architectural Process), Monograph published by Publishing House of Rzeszow University of Technology, Rzeszow, 2015 (In Polish)Search in Google Scholar
Timoshenko S.P., Gere J.M.; Theory of elastic stability, New York: Publishing McGraw-Hill, 1961Search in Google Scholar
Yang H.; A finite element formulation for stability analysis of doubly curved thin shell structures, Ph.D Dissertation, Cornell University, 1968Search in Google Scholar
