Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:2
  • preuzimanja u poslednjih 30 dana:2

Sadržaj

članak: 2 od 6  
Back povratak na rezultate
2017, vol. 9, br. 1, str. 21-32
Uticaj modula elastičnosti membranskog materijala na ugibe membrane pod dejstvom koncentrisane sile
Univerzitet u Nišu, Građevinsko-arhitektonski fakultet
Sažetak
Svojstva membranskih konstrukcija uglavnom su definisana karakteristikama membranskog materijala. Jedna od najvažnijih karakteristika membranskog materijala je modul elastičnosti. U ovom radu prikazano je istraživanje odnosa modula elastičnosti membranskog materijala i ugiba membrane pri dejstvu koncentrisane sile. Ispitivanje je izvršeno na numeričkim modelima u specijalizovanom softveru. Vrednost modula elastičnosti je varirana, a promene ugiba membrane su praćene. Takođe, menjana je i orijentacija membranskog materijala i tip ivičnih oslonaca. Dobijeni rezultati pomogli su u razumevanju uticaja modula elastičnosti membranskog materijala na ugibe membrane pod dejstvom koncentrisane sile.
Reference
Ambroziak, A. (2005) Analysis of Non-Linear Elastic Material Properties of PVC-Coated Panama Fabric. Task Quarterly, 9, No 2: 167-178
Ambroziak, A., Klosowski, P. (2014) Mechanical Properties for Preliminary Design of Structures Made from PVC Coated Fabric. Construction and Building Materials, 50: 74-81
Ambroziak, A. (2015) Mechanical Properties of Precontraint 1202S Coated Fabric Under Biaxial Tensile Test with Different Load Ratios. Construction and Building Materials, 80: 210-224
ASCE (2010) Tensile Membrane Structures. ASCE Standard. Reston: ASCE, ASCE/SEI 55-10
Ben, B., Gosling, P. (2015) Round Robin Exercise 2: Interpretation of Biaxial and Shear Test Data. TensiNews, 28: 16-17
Bridgens, B., Birchall, M. (2012) Form and Function: The Significance of Material Properties in the Design of Tensile Fabric Structures. Engineering Structures, 44: 1-12
Bridgens, B., Gosling, P., Jou, G.T., Hsu, X.Y. (2012) Inter-Laboratory Comparison of Biaxial Tests for Architectural Textiles. Journal of the Textile Institute, 103: 706-718
Forster, B., Mollaert, M. (2004) European Design Guide for Tensile Surface Structures. Brussels: TensiNet
Milošević, V. (2015) Dependence of Membrane Deflection on the Position and Intensity of Point Loads. Structural Engineering International, 25, No. 1: 20-25
Milošević, V., Marković, B., Stojić, D. (2016) Effects of different prestress intensities on the displacement of membrane structures under point loads. Facta universitatis - series: Architecture and Civil Engineering, vol. 14, br. 3, str. 311-318
Milošević, V., Marković, B., Stojić, D. Effects of Point Loads on Membrane Structures. Građevinar, 69
MSAJ (2016) Testing Method for Elastic Constants of Membrane Materials. Membrane Structures Association of Japan. Uhlemann, MSAJ/M-02-1995
Sofistik (2015) ASE General Static Analysis of Finite Element Structures. Oberschleissheim: SOFiSTiK AG
Stranghoner, N., Uhlemann, J., Bilginoglu, F., Bletzinger, K., Bogner-Balz, H., Corne, E., Gibson, N., et al. (2016) Prospect for European Guidance for the Structural Design of Tensile Membrane Structures. Luxembourg: European Commission-Joint Research Centre
Tanev, V. (2005) Tekstilni membranni konstrukcii ss stomanen oporen kontur. Sofia: University of Architecture, Civil Engineering and Geodesy, (PhD Thesis)
Uhlemann, J. (2016) Elastic Constants of Architectural Fabrics for Design Purposes. Duisburg: Universität Duisburg-Essen, (PhD Thesis)
Uhlemann, J., Stranghoner, N., Saxe, K. (2015) Comparison of Stiffness Properties of Common Coated Fabrics. Steel Construction, 8: 222-229
Uhlemann, J., Stranghoner, N., Saxe, K. (2015) Stiffness Parameters for Architectural Fabrics: An Analysis of Two Determination Procedures. Structural Engineering International, 25, No. 1: 9-19
Uhlemann, J., Stranghoner, N., Saxe, K. (2015) Tensile Structures: Investigation into the Determination of Elastic Constants of Fabrics. Journal of the International Association for Shell and Spatial Structures, 58: 25-35
Yingying, Z., Zhang, Q., Zhou, C., Zhou, Y. (2010) Mechanical Properties of PTFE Coated Fabrics. Journal of Reinforced Plastics and Composites, 29: 3624-3630
Yingying, Z., Zhang, Q., Zonglin, Y., Chen, L., Cao, Y. (2015) Load-Dependent Mechanical Behavior of Membrane Materials and its Effect on the Static Behaviors of Membrane Structures. Journal of Materials in Civil Engineering, 27: 1-11
Zhang, Y., Zhang, Q., Lei, K., Kuai, B. (2014) Experimental Analysis of Tensile Behaviors of Polytetrafluoroethilene-Coated Fabrics Subjected to Monotonous and Cyclic Loading. Textile Research Journal, 84: 231-245
 

O članku

jezik rada: engleski
vrsta rada: kratki članak
DOI: 10.5937/SAJ1701021M
prihvaćen: 10.04.2017.
objavljen u SCIndeksu: 05.07.2021.

Povezani članci