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Flexural impact response of textile reinforced inorganic phosphate cement composites (TRC)

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Abstract
This work presents the characterisation of the local low velocity impact behaviour of a high-performance fibre reinforced cementitious composite (HPFRCC) made of phosphate cement and different types of E-glass textile reinforcements. The so called "energy profiling method" that was used for quantitative characterisation is adopted from Liu et al. (2004) who introduced this methodology on polymer matrix composites (PMC). A series of plates reinforced with chopped strand E-glass fibre mats (fibre volume fraction of 24%) was impacted during drop weight tests, showing that this methodology is as well applicable to textile reinforced cementitious composites. Further, the effects of impactor size and plate thickness were investigated experimentally, and finally the obtained results were compared to literature data for polymer matrix composites. (C) 2017 Elsevier Ltd. All rights reserved.
Keywords
AERATED CONCRETE, BEHAVIOR, PLATES, Impact behaviour, Cement composites, High performance, Glass fibres, Textile reinforced cement, TRC

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Chicago
Wastiels, Jan, Johan Van Ackeren, Tine Tysmans, and Wim Van Paepegem. 2018. “Flexural Impact Response of Textile Reinforced Inorganic Phosphate Cement Composites (TRC).” Construction and Building Materials 163: 296–304.
APA
Wastiels, Jan, Van Ackeren, J., Tysmans, T., & Van Paepegem, W. (2018). Flexural impact response of textile reinforced inorganic phosphate cement composites (TRC). CONSTRUCTION AND BUILDING MATERIALS, 163, 296–304.
Vancouver
1.
Wastiels J, Van Ackeren J, Tysmans T, Van Paepegem W. Flexural impact response of textile reinforced inorganic phosphate cement composites (TRC). CONSTRUCTION AND BUILDING MATERIALS. Oxford: Elsevier Sci Ltd; 2018;163:296–304.
MLA
Wastiels, Jan, Johan Van Ackeren, Tine Tysmans, et al. “Flexural Impact Response of Textile Reinforced Inorganic Phosphate Cement Composites (TRC).” CONSTRUCTION AND BUILDING MATERIALS 163 (2018): 296–304. Print.
@article{8569295,
  abstract     = {This work presents the characterisation of the local low velocity impact behaviour of a high-performance fibre reinforced cementitious composite (HPFRCC) made of phosphate cement and different types of E-glass textile reinforcements. The so called {\textacutedbl}energy profiling method{\textacutedbl} that was used for quantitative characterisation is adopted from Liu et al. (2004) who introduced this methodology on polymer matrix composites (PMC). A series of plates reinforced with chopped strand E-glass fibre mats (fibre volume fraction of 24\%) was impacted during drop weight tests, showing that this methodology is as well applicable to textile reinforced cementitious composites. Further, the effects of impactor size and plate thickness were investigated experimentally, and finally the obtained results were compared to literature data for polymer matrix composites. (C) 2017 Elsevier Ltd. All rights reserved.},
  author       = {Wastiels, Jan and Van Ackeren, Johan and Tysmans, Tine and Van Paepegem, Wim},
  issn         = {0950-0618},
  journal      = {CONSTRUCTION AND BUILDING MATERIALS},
  keyword      = {AERATED CONCRETE,BEHAVIOR,PLATES,Impact behaviour,Cement composites,High performance,Glass fibres,Textile reinforced cement,TRC},
  language     = {eng},
  pages        = {296--304},
  publisher    = {Elsevier Sci Ltd},
  title        = {Flexural impact response of textile reinforced inorganic phosphate cement composites (TRC)},
  url          = {http://dx.doi.org/10.1016/j.conbuildmat.2017.12.117},
  volume       = {163},
  year         = {2018},
}

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