Experimental Investigation on Dynamic Characterization of Equi-Proportionate Silt–Sand Range Pond Ash at High Strain

Reddy, M. V. Ravi Kishore; Mohanty, Supriya; Rehana, S.

doi:10.1007/s40891-020-00211-4

Cited by 9 publications

(9 citation statements)

References 39 publications

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“…The rise in pore pressure has a tendency to reduce the effective stress, which ultimately reduces the shear modulus. The results obtained in the present analysis were found in good agreement with the previous study [30].…”

Section: Influence Of σ C ' Rc F and γ On Dynamic Shear Modulus(g) Of Silt-rich Fly Ashsupporting

confidence: 93%

“…Based on the strain, the modulus reduction curve is divided into three zones, i.e., A, B, and C, which classify the soil characteristics as linear elastic, nonlinear elastic, and elasto-plastic [85]. A wide range of strain between 0.01 and 1.35% has been taken by many researchers [16,30,86] and found comparable to the present study.…”

Section: Influence Of σ C ' Rc F and γ On Dynamic Shear Modulus(g) Of Silt-rich Fly Ashsupporting

confidence: 80%

“…Hence, it is necessary to characterize each fly ash before utilizing as geo-material as it exhibits a distinct engineering performance from place to place, unlike soil. Past study discusses the dynamic behavior of coal ash in medium-to-large strain only [20,29,30]. Generally, the particle size of fly ash is finer than that of pond ash and bottom ash.…”

Section: Introductionmentioning

confidence: 99%

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Experimental investigation on dynamic behavior of silt-rich fly ash using cyclic triaxial and bender element tests

Ram

Mohanty

2021

Innov. Infrastruct. Solut.

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The present study mainly focuses on the evaluation of dynamic properties of silt-rich fly ash from Renukoot, India, under large and small strain conditions using cyclic triaxial and bender element test, respectively. The influence of confining pressure, loading frequency, relative compaction, and shear strain amplitude on dynamic properties of fly ash under small strain and large strain condition has also been studied. The dynamic shear modulus (G) found experimentally from cyclic triaxial test shows the decay in a nonlinear manner with the increment of loading frequency and cyclic shear strain. The increment in dynamic shear modulus of fly ash was noticed with the increment of relative compaction and confining pressure. Similarly, the increase in small strain shear modulus (G max ) was observed with the increment of confining pressure, relative compaction, and frequency of the waveform. The decrease in damping ratio was observed with an increase in shear strain, especially for higher strain side (i.e., γ > 0.5%) but vice versa is not true for lower strain side (γ < 0.5%). Therefore, irrespective of the soil type, there exists a threshold strain beyond which damping ratio decreases with an increase in shear strain. All the parameters except loading frequency have a prominent impact on G and G max is sensitive to the entire considered factors. Finally, empirical correlations were developed between normalized shear modulus ratio (G/G max ) and damping ratio (D) of silt-rich fly ash with cyclic shear strain (γ) at different confining pressure, relative compaction, and loading frequency. The developed correlations can be helpful in calculating the dynamic properties of Renukoot fly ash at different strain levels. The developed correlations will also assist in the safe design of structures with fly ash as geo-material in the seismic-prone regions.

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Section: Influence Of σ C ' Rc F and γ On Dynamic Shear Modulus(g) Of Silt-rich Fly Ashsupporting

confidence: 93%

Section: Influence Of σ C ' Rc F and γ On Dynamic Shear Modulus(g) Of Silt-rich Fly Ashsupporting

confidence: 80%

Section: Introductionmentioning

confidence: 99%

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Experimental investigation on dynamic behavior of silt-rich fly ash using cyclic triaxial and bender element tests

Ram

Mohanty

2021

Innov. Infrastruct. Solut.

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“…The topics of this special issue cover various aspects, including laboratory testing and evaluation of material properties, field monitoring of ground improvement practices, data processing techniques, theoretical and numerical modelling, and supporting technologies and methodologies in ground engineering infrastructure. This special issue contains several papers dealing with the usage of new materials ranging from fibres to powderbased materials (waste marble, eggshell, flyash, and biochar) and pre-fabricated drains from different perspectives (freeze-thaw, dry-wet resistance, dynamic shear, compressive and tensile loading as well as gas flow) [1][2][3][4][5][6][7][8][9][10][11][12]. Coir and hemp fibres along with fly ash based alkaline binders are found to have profound effect on geotechnical properties of soils, such as tensile strength under the condition of freeze-thaw cycles [1].…”

mentioning

confidence: 99%

“…The internal mechanism reveals that for the ESP-FA geopolymer, cementitious products are formed at a given optimum activator ratio and heat condition [7]. In addition to static loads, sustainable materials, such as pond ash, have been found to be effective in enhancing stiffness of silty soil at large displacements [8].…”

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confidence: 99%