Experimental investigation of the folding behaviour of extruded cement-bound concretes
Experimental investigation of the folding behaviour of extruded cement-bound concretes
Typ dokumentu
diplomová prácemaster thesis
Autor
Ludwig Werum
Vedoucí práce
Kalthoff Matthias
Oponent práce
Matschei Thomas
Studijní obor
Building StructuresStudijní program
Civil EngineeringInstituce přidělující hodnost
katedra betonových a zděných konstrukcíPráva
A university thesis is a work protected by the Copyright Act. Extracts, copies and transcripts of the thesis are allowed for personal use only and at one?s own expense. The use of thesis should be in compliance with the Copyright Act http://www.mkcr.cz/assets/autorske-pravo/01-3982006.pdf and the citation ethics http://knihovny.cvut.cz/vychova/vskp.htmlVysokoškolská závěrečná práce je dílo chráněné autorským zákonem. Je možné pořizovat z něj na své náklady a pro svoji osobní potřebu výpisy, opisy a rozmnoženiny. Jeho využití musí být v souladu s autorským zákonem http://www.mkcr.cz/assets/autorske-pravo/01-3982006.pdf a citační etikou http://knihovny.cvut.cz/vychova/vskp.html
Metadata
Zobrazit celý záznamAbstrakt
The innovative and high-performance building material textile reinforced concrete (TRC) has the potential to significantly reduce the enormous resource consumption and CO2 emissions of the construction industry. To exploit the full potential of this revolutionary building material, however, innovative construction principles are required. Based on the form-follows-force principle, new ideas for structural component geometries can be found in nature, mathematics, and mechanics. In order to produce the found shapes, adequate manufacturing methods are required. Generative manufacturing by means of extrusion is an efficient method to produce filigree TRC components. Within the scope of this master’s thesis the subsequent forming or folding behavior of extruded fiber reinforced concrete (FRC) and TRC has been investigated. Furthermore, the influence of different fiber types and contents was analyzed. For this purpose, new folding tools were developed first, which allowed the production of specimens with varying bending radii in transverse and longitudinal direction. Thus, strongly curved specimens were produced using the fold in fresh principle. TRC specimens exhibited lower flexibility, which resulted in defects at significantly larger bending radii. Moreover, double-curved specimens were produced and tested in three-point bending tests for their flexural strength. The TRC specimens showed no significant resistance after the critical crack, which led to brittle failure in the FRC specimens. This behavior can be traced back to the test setup, which allowed large horizontal deformations. A possible future use of these double-curved elements is a structural system for ceilings. The innovative and high-performance building material textile reinforced concrete (TRC) has the potential to significantly reduce the enormous resource consumption and CO2 emissions of the construction industry. To exploit the full potential of this revolutionary building material, however, innovative construction principles are required. Based on the form-follows-force principle, new ideas for structural component geometries can be found in nature, mathematics, and mechanics. In order to produce the found shapes, adequate manufacturing methods are required. Generative manufacturing by means of extrusion is an efficient method to produce filigree TRC components. Within the scope of this master’s thesis the subsequent forming or folding behavior of extruded fiber reinforced concrete (FRC) and TRC has been investigated. Furthermore, the influence of different fiber types and contents was analyzed. For this purpose, new folding tools were developed first, which allowed the production of specimens with varying bending radii in transverse and longitudinal direction. Thus, strongly curved specimens were produced using the fold in fresh principle. TRC specimens exhibited lower flexibility, which resulted in defects at significantly larger bending radii. Moreover, double-curved specimens were produced and tested in three-point bending tests for their flexural strength. The TRC specimens showed no significant resistance after the critical crack, which led to brittle failure in the FRC specimens. This behavior can be traced back to the test setup, which allowed large horizontal deformations. A possible future use of these double-curved elements is a structural system for ceilings.
Kolekce
- Diplomové práce - 11133 [446]
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