Effect of hybrid fibers, calcium carbonate whisker and coarse sand on mechanical properties of cement-based composites

Cao, Mingli; Li, L.; Khan, Mehran

doi:10.3989/mc.2018.01717

Cited by 37 publications

(29 citation statements)

References 32 publications

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“…The behavior of FRCC depends on many factors, such as composite mixture characteristics, fiber characteristics, and base matrix characteristics 30,34 . From the existing literature, a significant work had been done on static properties of multiscale hybrid fiber reinforced cementitious composite (MSHFRCC) using steel fiber, PVA fiber, and CaCO 3 whisker 26,27,35–43 . However, material properties of steel fiber, PVA fiber, and CaCO 3 whisker FRCC under dynamic load are not studied yet.…”

Section: Introductionmentioning

confidence: 99%

“…The improved performance of PVA fiber is also observed in Engineered Cementitious Composite (ECC) 24,25 . Calcium carbonate (CaCO 3 ) whisker is new types of micron fiber with low production cost which resists cracking at the micro level 26–29 . The FRCC material must be designed for resisting the dynamic loading by enhancing its energy absorption capability 30 .…”

Section: Introductionmentioning

confidence: 99%

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Effectiveness of multiscale hybrid fiber reinforced cementitious composites under single degree of freedom hydraulic shaking table

Cao

Khan

2020

Structural Concrete

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Recently, the multiscale hybrid fiber reinforced cementitious composites (MSHyFRCC) with steel fibers, polyvinyl alcohol (PVA) fibers, and calcium carbonate whiskers had developed with improved mechanical properties under static load. Although, there is still a research gap to study its behavior and properties under the action of earthquake load. In this work, the properties of steel fibers, PVA fibers, and calcium carbonate whisker hybrid FRCC are evaluated by using single degree of freedom hydraulic shaking table. A total of 10 mixes having different mix proportions, fiber lengths, and contents of steel fibers, PVA fibers, and calcium carbonate whiskers are considered. The stress–strain curves, failure mode of cubes, compressive strength, peak micro‐strain, strain energy density, failure mode of column specimen, displacement‐time curves, strain‐time curves, and top acceleration‐time curves are studied. The multiscale hybrid fibers offer resistances against crack growth under dynamic load which results in longer time period with improved displacement, strain, and acceleration. The 1.5% steel fibers of 13 mm, 0.75% PVA fibers of 6 mm with 1% calcium carbonate whiskers and 1.25% steel fibers of 35 mm, 0.55% PVA fibers of 12 mm with 2% calcium carbonate whiskers are proposed to be the optimized mixes for short‐ and long‐length hybrid fibers, respectively.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effectiveness of multiscale hybrid fiber reinforced cementitious composites under single degree of freedom hydraulic shaking table

Cao

Khan

2020

Structural Concrete

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“…It is different from limestone powder with a bulk shape [ 35 ] or granular shape (see in Figure 6 ), but is needle-like [ 56 ] (see in Figure 7 ). Because of its shape, CW not only fills the voids to make the matrix dense [ 14 ] but also plays a role in resisting the development of micro-cracks, especially with incorporated steel fiber [ 16 , 20 , 59 ], PVA fiber [ 15 ] and carbon fiber [ 60 ]. Moreover, a positive synergic effect can be demonstrated when incorporated of a hybrid fiber system [ 61 , 62 ].…”

Section: Micro-calcium Carbonatementioning

confidence: 99%

“…Incorporation of SCMs and mineral admixtures such as fly ash, slag, silica fume and limestone is not only an effective way to reduce the carbon dioxide emissions and sources consumption, but also an economic and environmentally friendly way to produce cement or concrete, because most SCMs and mineral admixtures are industrial waste products [ 4 ]. Among these SCMs and mineral admixtures, limestone is widely used as a kind of filler material [ 5 , 6 , 7 , 8 , 9 ], aggregate [ 10 , 11 , 12 , 13 ], micro-fiber [ 14 , 15 , 16 , 17 , 18 , 19 , 20 ] and early strength agent [ 21 ] because of its various scales (macro-, micro- and nano-scale) [ 2 , 22 ], morphologies (bulk, granular and fibrous shape), crystal systems (calcite, aragonite, vaterite and amorphous calcium carbonate) [ 2 ].…”

Section: Introductionmentioning

confidence: 99%

Effect of Macro-, Micro- and Nano-Calcium Carbonate on Properties of Cementitious Composites—A Review

et al. 2019

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Calcium carbonate is wildly used in cementitious composites at different scales and can affect the properties of cementitious composites through physical effects (such as the filler effect, dilution effect and nucleation effect) and chemical effects. The effects of macro (>1 mm)-, micro (1 μm–1 mm)- and nano (<1 μm)-sizes of calcium carbonate on the hydration process, workability, mechanical properties and durability are reviewed. Macro-calcium carbonate mainly acts as an inert filler and can be involved in building the skeletons of hardened cementitious composites to provide part of the strength. Micro-calcium carbonate not only fills the voids between cement grains, but also accelerates the hydration process and affects the workability, mechanical properties and durability through the dilution, nucleation and even chemical effects. Nano-calcium carbonate also has both physical and chemical effects on the properties of cementitious composites, and these effects behave even more effectively than those of micro-calcium carbonate. However, agglomeration of nano-calcium carbonate reduces its enhancement effects remarkably.

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“…25SP0.75, SS1.5LP0.5, SS1.25LP0.75, LS1.5SP0.5, LS1.5LP0.5 and LS1.25LP0.75, respectively. This indicated that addition of CW into PVAsteel fiber specimens could increase compressive strength because micro-sized CW filled pores of matrix and improve the compactibility of cubes(12,17). However, compared with LS1.25SP0.75, the compressive strength of LS1.25SP0.55CW2.0 was decreased by 16.4%which is probably related…”

mentioning

confidence: 90%

Effect of different PVA and steel fiber length and content on mechanical properties of CaCO<sub>3</sub> whisker reinforced cementitious composites

Cao

Xie

et al. 2019

Mater. construcc.

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In this paper, calcium carbonate (CaCO3) whisker as a fiber reinforcement is mixed with steel and PVA fiber to form a multiscale hybrid fiber reinforced cementitious composites (MHFRCC). ASTM standard and post-crack strength techniques are performed to evaluate the mechanical properties of MHFRCC. The 1.25 % long steel fiber, 0.55 % short PVA fiber and 2.0 % CaCO3 whisker specimens showed the best flexural behavior before L/600 deflection. However, 1.5 % long steel fiber, 0.4 % long PVA fiber and 1.0 % CaCO3 whisker specimens presented better crack resistance after L/600 deflection. It is revealed that flexural parameters increase as comprehensive reinforcing index increase. The result showed that the CaCO3 whisker and short PVA fiber provided crack resistance effect at micro-scale and mainly play a dominate role in inhibiting micro-cracking. However, long steel fiber and long PVA fiber showed a better bridging effect of macro cracks at a large deflection.

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Effect of hybrid fibers, calcium carbonate whisker and coarse sand on mechanical properties of cement-based composites

Cited by 37 publications

References 32 publications

Effectiveness of multiscale hybrid fiber reinforced cementitious composites under single degree of freedom hydraulic shaking table

Effectiveness of multiscale hybrid fiber reinforced cementitious composites under single degree of freedom hydraulic shaking table

Effect of Macro-, Micro- and Nano-Calcium Carbonate on Properties of Cementitious Composites—A Review

Effect of different PVA and steel fiber length and content on mechanical properties of CaCO<sub>3</sub> whisker reinforced cementitious composites

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