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Journal of Materials Science

Erschienen in:

03.01.2022 | Composites & nanocomposites

Smart self-sensing concrete: the use of multiscale carbon fillers

verfasst von: Shima Taheri, John Georgaklis, Martin Ams, Sarath Patabendigedara, Andrew Belford, Shuying Wu

Erschienen in: Journal of Materials Science | Ausgabe 4/2022

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Abstract

In this study, the electrical and piezoresistive properties of cement-based composites with binary conductive fillers consisting of carbon nanofibers (CNFs) and recycled milled carbon fibers (rMCFs) were experimentally investigated. The self-sensing capability of these composites under quasi-static and cyclic compression loads was studied. Experimental results showed that the optimal self-sensing formulation contained CNFs 1 wt% and 0.5 wt% rMCFs. Strain and temperature fiber Bragg grating sensors were embedded inside specimens to verify the load test methodology. The novelty of this work lies not only in the sustainable use of recycled carbon fibers and partial replacement of CNFs in the formulation but also in lowering the cost of production of smart cementitious products for the structural health monitoring purposes by at least $1.99/g.

Vorheriger Artikel The influence of carbon morphologies and concentrations on the rheology and electrical performance of screen-printed carbon pastes

Nächster Artikel Silane-functionalized graphene nanoplatelets for silicone rubber nanocomposites

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World Economuc Forum, (2016) Shaping the future of construction a breakthrough in mindset and technology, World Economic Forum.

Han B, Zhang L, Ou J (2017) Smart and multifunctional concrete toward sustainable infrastructures. SpringerCrossRef

Hasan KF, Horváth PG, Alpár T (2021) Lignocellulosic fiber cement compatibility: a state of the art review. J Natural Fibers. https://doi.org/10.1080/15440478.2021.1875380CrossRef

Hasan KF, Horváth PG, Kóczán Z, Bak M, Alpár T (2021) Semi-dry technology-mediated coir fiber and Scots pine particle-reinforced sustainable cementitious composite panels. Constr Build Mater 305:124816CrossRef

Hasan KF, Horváth PG, Alpar T (2021) Development of lignocellulosic fiber reinforced cement composite panels using semi-dry technology. Cellulose 28:3631–3645CrossRef

Han B, Ding S, Yu X (2015) Intrinsic self-sensing concrete and structures: a review. Measurement 59:110–128CrossRef

Han B, Yu X, Ou J (2014) Self-sensing concrete in smart structures. Butterworth-Heinemann

Taheri S (2019) A review on five key sensors for monitoring of concrete structures. Constr Build Mater 204:492–509CrossRef

Chung DD (2003) Damage in cement-based materials, studied by electrical resistance measurement. Mater Sci Eng R Rep 42:1–40CrossRef

10.

Tian Z, Li Y, Zheng J, Wang S (2019) A state-of-the-art on self-sensing concrete: materials, fabrication and properties. Compos Part B: Eng 177:107437CrossRef

11.

Xu D, Liu Q, Qin Y, Chen B (2020) Analytical approach for crack identification of glass fiber reinforced polymer–sea sand concrete composite structures based on strain dissipations. Struct Health Monit. https://doi.org/10.1177/1475921720974290CrossRef

12.

Yoo D-Y, You I, Youn H, Lee S-J (2018) Electrical and piezoresistive properties of cement composites with carbon nanomaterials. J Compos Mater 52:3325–3340CrossRef

13.

Yoo D-Y, You I, Lee S-J (2018) Electrical and piezoresistive sensing capacities of cement paste with multi-walled carbon nanotubes. Arch Civil Mech Eng 18:371–384CrossRef

14.

M. Ams, P. Ha, S. Taheri, S. Clark, M.J. Withford, H. Bustamante, J. Gonzalez, L. Vorreiter, (2017) Fibre optic temperature and humidity sensors for harsh wastewater environments, sensing technology (ICST), In: 2017 Eleventh international conference on, IEEE, pp. 1–3.

15.

M. Ams, P. Giri, P. Dekker, S. Taheri, J. Gonzalez, S. Clark, T. Kuen, L. Vorreiter, H. Bustamante, M.J. Withford, (2019) Optical fibre sensors for monitoring sewer concrete corrosion, In: The European conference on lasers and electro-optics, optical society of America, pp. ch_1_3.

16.

Zhang C, Alam Z, Sun L, Su Z, Samali B (2019) Fibre Bragg grating sensor-based damage response monitoring of an asymmetric reinforced concrete shear wall structure subjected to progressive seismic loads. Struct Control Health Monit 26:e2307CrossRef

17.

Sun L, Li C, Zhang C, Liang T, Zhao Z (2019) The strain transfer mechanism of fiber bragg grating sensor for extra large strain monitoring. Sensors 19:1851CrossRef

18.

Marshall GD, Williams RJ, Jovanovic N, Steel M, Withford MJ (2010) Point-by-point written fiber-Bragg gratings and their application in complex grating designs. Opt Express 18:19844–19859CrossRef

19.

Azhari F, Banthia N (2012) Cement-based sensors with carbon fibers and carbon nanotubes for piezoresistive sensing. Cement Concr Compos 34:866–873CrossRef

20.

Sasmal S, Ravivarman N, Sindu B, Vignesh K (2017) Electrical conductivity and piezo-resistive characteristics of CNT and CNF incorporated cementitious nanocomposites under static and dynamic loading. Compos A Appl Sci Manuf 100:227–243CrossRef

21.

Wang Y, Edgell J, Graham N, Jackson N, Liang H, Pham DT (2020) Self-healing of structural carbon fibres in polymer composites. Cogent Eng. https://doi.org/10.1080/23311916.2020.1799909CrossRef

22.

S. Kirmse, B. Ranabhat, K.-T. Hsiao, (2019) A preliminary study of the electrical and interlaminar shear properties of a porous CFRP composite laminate containing carbon nanofiber z-threads, In: Proceedings of CAMX 2019-Anaheim, CA.

23.

Ravindran AR, Ladani RB, Wang CH, Mouritz AP (2019) Hierarchical mode I and mode II interlaminar toughening of Z-pinned composites using 1D and 2D carbon nanofillers. Compos Part A: Appl Sci Manuf 124:105470CrossRef

24.

Tafesse M, Kim H-K (2019) The role of carbon nanotube on hydration kinetics and shrinkage of cement composite. Compos B Eng 169:55–64CrossRef

25.

Taheri S, Clark SM (2021) Preparation of self-healing additives for concrete via miniemulsion polymerization: formulation and production challenges. Int J Concr Struct Mater 15:8CrossRef

26.

Adhikary SK, Rudžionis Ž, Rajapriya R (2020) The effect of carbon nanotubes on the flowability, mechanical, microstructural and durability properties of cementitious composite: an overview. Sustainability 12:8362CrossRef

27.

Yakovlev G, Drochytka R, Skripkiūnas G, Urkhanova L, Polyanskikh I, Pudov I, Karpova E, Saidova Z, Elrefai AEMM (2021) Effect of ultrafine additives on the morphology of cement hydration products. Curr Comput-Aided Drug Des 11:1002

28.

Todoroki A, Takeuchi Y, Shimamura Y, Iwasaki A, Sugiya T (2004) Fracture monitoring system of sewer pipe with composite fracture sensors via the internet. Struct Health Monit 3:5–17CrossRef

29.

Mori T, Nonaka T, Tazaki K, Koga M, Hikosaka Y, Noda S (1992) Interactions of nutrients, moisture and pH on microbial corrosion of concrete sewer pipes. Water Res 26:29–37CrossRef

30.

Taheri S, Delgado GP, Agbaje OBA, Giri P, Clark SM (2020) Corrosion inhibitory effects of mullite in concrete exposed to sulfuric acid attack. Corros Mater Degrad 1:282–295CrossRef

31.

Santhanam M, Cohen MD, Olek J (2003) Effects of gypsum formation on the performance of cement mortars during external sulfate attack. Cem Concr Res 33:325–332CrossRef

32.

Santhanam M, Cohen MD, Olek J (2003) Mechanism of sulfate attack: a fresh look: part 2 Proposed mechanisms. Cem Concr Res 33:341–346CrossRef

33.

Santhanam M, Cohen MD, Olek J (2002) Mechanism of sulfate attack: a fresh look: Part 1: summary of experimental results. Cem Concr Res 32:915–921CrossRef

34.

García-Macías E, Castro-Triguero R, Sáez A, Ubertini F (2018) 3D mixed micromechanics-FEM modeling of piezoresistive carbon nanotube smart concrete. Comput Methods Appl Mech Eng 340:396–423CrossRef

35.

Benarbia D, Benguediab M (2015) Determination of stress intensity factor in concrete material under Brazilian disc and three-point bending tests using finite element method. Period Polytech Mech Eng 59:199–203CrossRef

36.

Schäfer N, Gudžulić V, Timothy JJ, Breitenbücher R, Meschke G (2019) Fatigue behavior of HPC and FRC under cyclic tensile loading: experiments and modeling. Struct Concr 20:1265–1278CrossRef

37.

Chen B, Liu J (2008) Damage in carbon fiber-reinforced concrete, monitored by both electrical resistance measurement and acoustic emission analysis. Constr Build Mater 22:2196–2201CrossRef

38.

Azarsa P, Gupta R (2017) Electrical resistivity of concrete for durability evaluation: a review. Adv Mater Sci Eng 2017:8453095CrossRef

39.

Sengul O (2014) Use of electrical resistivity as an indicator for durability. Constr Build Mater 73:434–441CrossRef

40.

Čápová K, Velebil L, Včelák J (2020) Laboratory and in-situ testing of integrated fbg sensors for shm for concrete and timber structures. Sensors 20:1661CrossRef

41.

Esteki MH, Alemrajabi AA, Hall CM, Sheridan GK, Azadi M, Moeendarbary E (2020) A new framework for characterization of poroelastic materials using indentation. Acta Biomater 102:138–148CrossRef

Titel: Smart self-sensing concrete: the use of multiscale carbon fillers
verfasst von: Shima Taheri
John Georgaklis
Martin Ams
Sarath Patabendigedara
Andrew Belford
Shuying Wu
Publikationsdatum: 03.01.2022
Verlag: Springer US
Erschienen in: Journal of Materials Science / Ausgabe 4/2022
Print ISSN: 0022-2461
Elektronische ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-021-06732-1

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