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180 results on '"Choudhary, B K"'

1. Effect of orientation and mode of loading on deformation behaviour of Cu nanowires

Author

Rohith, P., Sainath, G., and Choudhary, B. K.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Molecular dynamics simulations have been performed to understand the variations in deformation mechanisms of Cu nanowires as a function of orientation and loading mode (tension or compression). Cu nanowires of different crystallographic orientations distributed uniformly on the standard stereographic triangle have been considered under tensile and compressive loading. The simulation results indicate that under compressive loading, the orientations close to $<$100$>$ corner deform by twinning mechanism, while the remaining orientations deform by dislocation slip. On the other hand, all the nanowires deform by twinning mechanism under tensile loading. Further, the orientations close to $<$110$>$ and $<$111$>$ corner exhibit tension-compression asymmetry in deformation mechanisms. In addition to deformation mechanisms, Cu nanowires also display tension-compression asymmetry in yield stress. The orientations close to $<$001$>$ corner exhibits higher yield stress in tension than in compression, while the opposite behaviour (higher yield stress in compression than in tension) has been observed in orientations close to $<$110$>$ and $<$111$>$ corners. For the specific orientation of $<$102$>$, the yield stress asymmetry has not been observed. The tension-compression asymmetry in deformation mechanisms has been explained based on the parameter $\alpha_M$, defined as the ratio of Schmid factors for leading and trailing partial dislocations. Similarly, the asymmetry in yield stress values has been attributed to the different Schmid factor values for leading partial dislocations under tensile and compressive loading., Comment: 17 pages, 12 figures, 2 tables, journal paper

Published
2018
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2. Twinning to slip transition in ultrathin BCC Fe nanowires

Author

Sainath, G. and Choudhary, B. K.

Subjects
Condensed Matter - Materials Science
Abstract

We report twinning to slip transition with decreasing size and increasing temperature in ultrathin $<$100$>$ BCC Fe nanowires. Molecular dynamics simulations have been performed on different nanowire size in the range 0.404-3.634 nm at temperatures ranging from 10 to 900 K. The results indicate that slip mode dominates at low sizes and high temperatures, while deformation twinning is promoted at high sizes and low temperatures. The temperature, at which the nanowires show twinning to slip transition, increases with increasing size. The different modes of deformation are also reflected appropriately in the respective stress-strain behaviour of the nanowires., Comment: 5 Pages, 4 Figures, Journal article

Published
2018
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3. Atomistic simulations on ductile-brittle transition in <111> BCC Fe nanowires

Author

Sainath, G. and Choudhary, B. K.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Molecular dynamics simulations have been performed to understand the influence of temperature on the tensile deformation and fracture behavior of $<$111$>$ BCC Fe nanowires. The simulations have been carried out at different temperatures in the range 10-1000 K employing a constant strain rate of $1\times$ $10^8$ $s^{-1}$. The results indicate that at low temperatures (10-375 K), the nanowires yield through the nucleation of a sharp crack and fails in brittle manner. On the other hand, nucleation of multiple 1/2$<$111$>$ dislocations at yielding followed by significant plastic deformation leading to ductile failure has been observed at high temperatures in the range 450-1000 K. At the intermediate temperature of 400 K, the nanowire yields through nucleation of crack associated with many mobile 1/2$<$111$>$ and immobile $<$100$>$ dislocations at the crack tip and fails in ductile manner. The ductile-brittle transition observed in $<$111$>$ BCC Fe nanowires is appropriately reflected in the stress-strain behavior and plastic strain at failure. The ductile-brittle transition increases with increasing nanowire size. The change in fracture behavior has been discussed in terms of the relative variations in yield and fracture stresses and change in slip behavior with respect to temperature. Further, the dislocation multiplication mechanism assisted by the kink nucleation from the nanowire surface observed at high temperatures has been presented., Comment: 10 Pages, 10 Figures, Full length article

Published
2017
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4. Formation of pentagonal atomic chains in BCC Fe nanowires

Author

Sainath, G. and Choudhary, B. K.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

For the first time, we report the formation of pentagonal atomic chains during tensile deformation of ultra thin BCC Fe nanowires. Extensive molecular dynamics simulations have been performed on $<$100$>$/{110} BCC Fe nanowires with different cross section width varying from 0.404 to 3.634 nm at temperatures ranging from 10 to 900 K. The results indicate that above certain temperature, long and stable pentagonal atomic chains form in BCC Fe nanowires with cross section width less than 2.83 nm. The temperature, above which the pentagonal chains form, increases with increase in nanowire size. The pentagonal chains have been observed to be highly stable over large plastic strains and contribute to high ductility in Fe nanowires., Comment: 5 pages, 4 figures, 1 table

Published
2016
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7. Influence of twist boundary on deformation behaviour of <100> BCC Fe nanowires

Author

Sainath, G. and Choudhary, B. K.

Subjects
Condensed Matter - Materials Science
Abstract

Molecular dynamics simulations revealed significant difference in deformation behaviour of $<$100$>$ BCC Fe nanowires with and without twist boundary. The plastic deformation in perfect $<$100$>$ BCC Fe nanowire was dominated by twinning and reorientation to $<$110$>$ followed by further deformation by slip mode. On the contrary, $<$100$>$ BCC Fe nanowire with a twist boundary deformed by slip at low plastic strains followed by twinning at high strains and absence of full reorientation. The results suggest that the deformation in $<$100$>$ BCC Fe nanowire by dislocation slip is preferred over twinning in the presence of initial dislocations or dislocation networks. The results also explain the absence of extensive twinning in bulk materials, which inherently contains large number of dislocations., Comment: 7 Pages, 4 Figures

Published
2016
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8. Deformation behaviour of body centered cubic iron nanopillars containing coherent twin boundaries

Author

Sainath, G. and Choudhary, B. K.

Subjects
Condensed Matter - Materials Science
Abstract

Molecular dynamics simulations were performed to understand the role of twin boundaries on deformation behaviour of body-centred cubic (BCC) iron (Fe) nanopillars. The twin boundaries varying from one to five providing twin boundary spacing in the range 8.5 - 2.8 nm were introduced perpendicular to the loading direction. The simulation results indicated that the twin boundaries in BCC Fe play a contrasting role during deformation under tensile and compressive loadings. During tensile deformation, a large reduction in yield stress was observed in twinned nanopillars compared to perfect nanopillar. However, the yield stress exhibited only marginal variation with respect to twin boundary spacing. On the contrary, a decrease in yield stress with increase in twin boundary spacing was obtained during compressive deformation. This contrasting behaviour originates from difference in operating mechanisms during yielding and subsequent plastic deformation. It has been observed that the deformation under tensile loading was dominated mainly by twin growth mechanism, due to which the twin boundaries offers a negligible resistance to slip of twinning partials. This is reflected in the negligible variation of yield stress as a function of twin boundary spacing. On the other hand, the deformation was dominated by nucleation and slip of full dislocations under compressive loading. The twin boundaries offer a strong repulsive force on full dislocations resulting in the yield stress dependence on twin boundary spacing. Further, it has been observed that the curved twin boundary can acts as a source for full dislocation. The occurrence of twin-twin interaction during tensile deformation and dislocation-twin interaction during compressive deformation were presented and discussed., Comment: 21 Pages, 18 Figures, Journal article

Published
2016
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9. Fatigue Deformation of Polycrystalline Cu Using Molecular Dynamics Simulations

Author

Sainath, G., Rohith, P., and Choudhary, B. K.

Subjects
Condensed Matter - Materials Science
Abstract

Molecular dynamics (MD) simulations have been performed to investigate the fatigue deformation behaviour of polycrystalline Cu with grain size of 5.4 nm. The samples were prepared using Voronoi algorithm with random grain orientations. Fatigue simulations were carried out by employing fully reversed, total strain controlled cyclic loading at strain amplitude of $\pm4$\% for 10 cycles. The MD simulation results indicated that the deformation behaviour under cyclic loading is dominated by the slip of partial dislocations enclosing the stacking faults. At higher number of cycles, the grain boundary migration leading to coarsening of larger grains at the expense of the smaller grains has been observed. The cyclic stress-strain behaviour, the deformation mechanisms and the variation of dislocation density as a function of cyclic deformation have been discussed., Comment: 6 Pages, 5 Figures , Journal article

Published
2016
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10. Directional Anisotropy of Crack Propagation Along $\Sigma$3 Grain Boundary in BCC Fe

Author

Sainath, G. and Choudhary, B. K.

Subjects
Condensed Matter - Materials Science
Abstract

Crack growth behaviour along the coherent twin boundary (CTB), i.e., $\Sigma$3{112} of BCC Fe is investigated using molecular dynamics (MD) simulations. The growth of an atomistically sharp crack with {112}$<$110$>$ orientation has been examined along the two opposite $<$111$>$ directions of CTB under mode-I loading at a constant strain rate. Separate MD simulations were carried out with crack inserted in the left side, right side and middle of the specimen model system. The results indicate that the crack grows differently along the two opposite $<$111$>$ directions. In case of a crack inserted in the left side, the crack grows in ductile manner, while it propagates in semi-brittle manner in the case of crack inserted in the right side. The directional dependence of crack growth along the CTB is also confirmed by the stress-strain behaviour. This anisotropy in crack growth behaviour has been attributed to the twinning-antitwinning asymmetry of 1/6$<$111$>$ partial dislocations on {112} planes., Comment: 6 pages, 5 figures, Journal article

Published
2016
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11. Molecular dynamics simulation of twin boundary effect on deformation of Cu nanopillars

Author

Sainath, G. and Choudhary, B. K.

Subjects
Condensed Matter - Materials Science
Abstract

Molecular dynamics simulations performed on <110> Cu nanopillars revealed significant difference in deformation behavior of nanopillars with and without twin boundary. The plastic deformation in single crystal Cu nanopillar without twin boundary was dominated by twinning, whereas the introduction of twin boundary changed the deformation mode from twinning to slip consisting of leading partial followed by trailing partial dislocations. This difference in deformation behavior has been attributed to the formation of stair-rod dislocation and its dissociation in the twinned nanopillars., Comment: 4 Pages, 4 figures, Journal article

Published
2016
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12. Molecular Dynamics Simulations of Tensile Behavior of Copper

Author

Sainath, G., Srinivasan, V. S., Choudhary, B. K., Mathew, M. D., and Jayakumar, T.

Subjects
Condensed Matter - Materials Science
Abstract

Molecular dynamics simulations on tensile deformation of initially defect free single crystal copper nanowire oriented in <001>{100} has been carried out at 10 K under adiabatic and isothermal loading conditions. The tensile behaviour was characterized by sharp rise in stress in elastic regime followed by sudden drop at the point of dislocation nucleation. The important finding is that the variation in dislocation density is correlated with the observed stress-strain response. Several interesting micro- structural features were observed during tensile deformation such as slip, phase transformation and pentagonal structure in necking region affecting the plastic deformation behaviour of single crystal copper nanowire., Comment: 6 pages, 6 figures, conference paper

Published
2014

13. Deformation behaviour of body centered cubic Fe nanowires under tensile and compressive loading

Author

Sainath, G., Choudhary, B. K., and Jayakumar, T.

Subjects
Condensed Matter - Materials Science
Abstract

Molecular Dynamics (MD) simulations have been carried out to investigate the deformation behaviour of <110>/{111} body centered cubic (BCC) Fe nanowires under tensile and compressive loading. An embedded atom method (EAM) potential was used to describe the interatomic interactions. The simulations were carried out at 10 K with a constant strain rate of $1\times10^{8}$ $s^{-1}$. The results indicate a significant differences in deformation mechanisms under tensile and compressive loading. Under tensile loading, the deformation occurs by the slip of full dislocations, While under compressive loading twinning was observed as the dominant mode of deformation. The tension-compression asymmetry in deformation mechanisms of BCC Fe nanowires is attributed to twinning-antitwinning asymmetry of 1/6<111> partial dislocation on {112} planes. We further explain the mechanism of dislocation pile up in tensile loading and twin growth in compressive loading., Comment: 7 pages, 5 figures

Published
2014

14. Electronic Structure of Ordered Double Perovskite Ba2CoWO6

Author

Ray, Rajyavardhan, Himanshu, A K, Brajesh, Kumar, Choudhary, B K, Bandyopadhyay, S K, Sen, Pintu, Kumar, Uday, and Sinha, T P

Subjects
Condensed Matter - Materials Science
Abstract

Ba2CoWO6 (BCoW) has been synthesized in polycrystalline form by solid state reaction at 1200C. Structural characterization of the compound was done through X-ray diffraction (XRD) followed by Rietveld analysis of the XRD pattern. The crystal structure is cubic, space group Fm-3m (No 225) with the lattice parameter, a=8.210A. Optical band-gap of the present system has been calculated using the UV-Vis Spectroscopy and Kubelka-Munk function, its value being 2.45 eV. A detailed study of the electronic properties has also been carried out using the density functional theory (DFT) techniques implemented on WIEN2k. Importance of electron-electron interaction between the Co ions leading to half-metallic behavior, crystal and exchange splitting together with the hybridization between O and Co, W has been investigated using the total and partial density of states., Comment: 3 pages, 3 figures, submitted to 58th DAE-SSPS 2013

Published
2013
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35. Preface

Author

Nagesha, A., Sandhya, R., Choudhary, B. K., and Laha, K.

Published
2016
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36. Implementing the office total productive maintenance ('office TPM') program: a library case study

Author

Patra, Nihar Kanta, Tripathy, Jayanta Kumar, and Choudhary, B. K.

Subjects
Continuous improvement (Management) -- Evaluation, Libraries -- Management, Total productive maintenance -- Usage, Total productive maintenance -- Case studies, Company business management, Library and information science
Abstract

The implementation of office total productive maintenance (TPM) in Indian Institute for Production Management (IIPM) library situated at Kanshbahal, Orissa, India is discussed. The TPM program is meant to increase production and improve employees moral and job satisfaction.

Published
2005

46. Comparative evaluation of two physically based models for the description of stress-relaxation behaviour of 9% chromium containing steel.

Author

Christopher, J., Praveen, C., and Choudhary, B. K.

Subjects
STEEL, PHYSICAL constants, BEHAVIOR, CHROMIUM
Abstract

An attempt has been made to evaluate the applicability of two constitutive models related to the dislocation-obstacle interactions for the description of stress-relaxation behaviour of E911 tempered martensitic steel. The first one is Feltham model (Model-I) and the second model proposed by Christopher and Choudhary (Model-II) is based on the sine hyperbolic kinetic rate formulation coupled with the evolution of internal stress. The physical constants associated with these models have been determined by the minimization of errors between experimental and predicted relaxation stress vs. hold time data for two different strain hold levels of 1.3 and 2.5% at 873 K for E911 steel. Model-II provides better prediction of stress-relaxation behaviour of the steel as compared to Model-I. In addition to prediction of relaxation stress vs. hold time data, Model-II describes the evolution of internal stress, inter-barrier spacing and activation volume with the hold time. The predicted increase in inter-barrier spacing and activation volume with hold time indicated that substructural coarsening remains dominant in E911 steel under stress-relaxation conditions. [ABSTRACT FROM AUTHOR]

Published
2019
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47. An exploratory study on cultural and health significance of traditional tattooing practices among tribal community in Chhattisgarh state, India

Author

Mooventhan, P., Kadian, K. S., Kumar, R. Senthil, Karpagam, C., Choudhary, B. K., Mooventhan, P., Kadian, K. S., Kumar, R. Senthil, Karpagam, C., and Choudhary, B. K.

Abstract

This explorative study carried out from four districts of Chhattisgarh state namely Surajpur, Surguja, Balrampur and Jashpur. From each district, four villages were selected and from each village 25 tribal respondents were selected thus 300 respondents were selected for this study. About 65.33 percent of the tribal were between 36and 50 years of age group, more than one fourth (34.67%) of the farmers were educated up to primary school level, about half (49.00 %) of the respondents were at the income range of Rs. 25,001 to Rs. 75,000 and about 80% of the population of the state is rural and the main livelihood of the villagers is agriculture and agriculture-based small industry. Tattooing is one of the livelihood option for the tribal community in the study area. Tattooing has been practiced across the world since at least Neolithic times (7000 BCE), as confirmed by mummified preserved skin, prehistoric art, literatures, poetry, proverbs and the archaeological records. In Southern India, permanent tattoos are called pachakutharathu. In northern India, permanent tattoos are called Godna. Tattoos have been used as cultural symbols among many tribal populations, as well as the caste-based Hindu population of India. These tattoos have also been used as integral part of the tribal’s lifestyle Chhattisgarh state of India.

Published
2016

48. Eco-friendly fishing methods and techniques practiced in the northern hills zone of Chhattisgarh state, India

Author

Mooventhan, P., Kadian, K. S., Kumar, R. Senthil, Karpagam, C., Choudhary, B. K., Mooventhan, P., Kadian, K. S., Kumar, R. Senthil, Karpagam, C., and Choudhary, B. K.

Abstract

Indian forests have the potential to safeguard the livelihood of forest dwelling people, particularly tribal people, who are among the most disadvantaged groups in our society. Tribal people generally depend on forests for their cultural, spiritual, and to varying degree of economic needs. Fishing is one of the important livelihood activities of the tribal community since the time immortal. Fishing provides the source of livelihood as well as nutritional security to the tribal family significantly. An explorative study was conducted in participatory mode to explore the eco-friendly fishing methods. Totally, 300 respondents were selected for this study. The data was documented with the help of participatory observation, focused group discussions with triangulation procedures. In the paper, eco-friendly fishing methods such as Kumani, Pahata, Mora, Donga, Pelna, Choppa, Mora, Gulel, Bhawarjal, Ditori, Beetaah, Chiwaar, Baahla and Jholna and their working procedures are discussed. Jholna used to catch small and medium sized fishes upto 5-7 kg/day. The production cost of this choppa is less than Rs. 250 and it is used to catch small sized fishes up to 1.5-2.5kg/day. Kumani is used to catch small sized fishes and crabs upto 1-2 kg/day. The making cost of Pelna is around Rs. 650 and it is used to catch fishes upto 6-7 kg/day. The construction cost of Pahata gear is around Rs. 2000 and It is used to catch medium to big sized fishes upto 8-10kg/day.

Published
2016

49. Magnetic resonance imaging in pre-operative staging of endometrial cancer.

Author

Shrivastava S., Barmon D., Kataki A. C., Deka P., Sharma J. D., Choudhary B. K., Baruah U., Shrivastava, S, Barmon, D, Kataki, A C, Deka, P, Sharma, J D, Choudhary, B K, and Baruah, U

Subjects
MAGNETIC resonance imaging, PREOPERATIVE period, ENDOMETRIAL cancer, HISTOPATHOLOGY, ADENOCARCINOMA
Abstract

Introduction: Endometrial cancer (EC) is one of the most common gynecological cancers and the fourth most common cancer in the female. Although clinical evaluation with diagnostic imaging has not yet proved to be accurate enough in the evaluation of tumor extent to replace surgical staging, it may enable optimization of the surgical procedure and a better tailored therapeutic strategy. This study will review the characteristic magnetic resonance imaging (MRI) findings in endometrial carcinomas in the pre-operative staging of endometrial carcinomas and compare it with the newly revised Federation of Gynecology and Obstetrics (FIGO) staging scheme of 2009 based on post-operative surgical histopathology.Materials and Methods: It is a retrospective analysis of 36 patients diagnosed and treated for endometrial carcinoma in our institute from January 2009 to December 2012.Results: Majority of the patients (61%) were between the age group of 41-60 years. Most of the patients (72%) were postmenopausal at the time of presentation. Most common histopathology of endometrial carcinoma was endometroid adenocarcinoma (27 patients, 75%). FIGO staging of 12 patients (85.7%) showed concordance with MRI Staging for Stage Ia, with up-gradation of two patients to Stage Ib.Conclusion: The information provided by MRI can define prognosis, help planning the surgical approach and identify those patients requiring neoadjuvant chemotherapy or radiation therapy. [ABSTRACT FROM AUTHOR]

Published
2016
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