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Böhm, Robert [Author]; Thieme, Mike [Author]; Wohlfahrt, Daniel [Author]; Wolz, Daniel Sebastian [Author]; Richter, Benjamin [Author]; Jäger, Hubert [Author]

Reinforcement Systems for Carbon Concrete Composites Based on Low-Cost Carbon Fibers

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  • Media type: E-Article
  • Title: Reinforcement Systems for Carbon Concrete Composites Based on Low-Cost Carbon Fibers
  • Contributor: Böhm, Robert [Author]; Thieme, Mike [Author]; Wohlfahrt, Daniel [Author]; Wolz, Daniel Sebastian [Author]; Richter, Benjamin [Author]; Jäger, Hubert [Author]
  • imprint: Basel : Molecular Diversity Preservation International MDPI, [2019]
  • Language: English
  • DOI: 10.3390/fib6030056
  • RVK notation: UA 1000 : Referateblätter und Zeitschriften
  • Keywords: Technische Universität Dresden ; low-cost carbon fibers ; Carbonbetonverbunde ; Physik ; Publishing Fund ; Publikationsfond ; carbon concrete composites ; science-physics ; kostengünstige Carbonfasern ; pultrusion ; Pultrusion
  • Origination:
  • Footnote: Hinweis: Link zum Artikel, der zuerst in der Zeitschrift 'Fibers' erschienen ist. DOI: 10.3390/fib6030056
  • Description: Carbon concrete polyacrylonitrile (PAN)/lignin-based carbon fiber (CF) composites are a new promising material class for the building industry. The replacement of the traditional heavy and corroding steel reinforcement by carbon fiber (CF)-based reinforcements offers many significant advantages: a higher protection of environmental resources because of lower CO2 consumption during cement production, a longer lifecycle and thus, much less damage to structural components and a higher degree of design freedom because lightweight solutions can be realized. However, due to cost pressure in civil engineering, completely new process chains are required to manufacture CF-based reinforcement structures for concrete. This article describes the necessary process steps in order to develop CF reinforcement: (1) the production of cost-effective CF using novel carbon fiber lines, and (2) the fabrication of CF rebars with different geometry profiles. It was found that PAN/lignin-based CF is currently the promising material with the most promise to meet future market demands. However, significant research needs to be undertaken in order to improve the properties of lignin-based and PAN/lignin-based CF, respectively. The CF can be manufactured to CF-based rebars using different manufacturing technologies which are developed at a prototype level in this study.
  • Access State: Open Access
  • Rights information: Attribution (CC BY)