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1. Delamination localization in the composite thin plates using ensemble learning: Bagging and boosting techniques.

Author

Das, O. and Das, D. B.

Subjects
BOOSTING algorithms, BOOTSTRAP aggregation (Algorithms), DELAMINATION of composite materials, NONDESTRUCTIVE testing, FINITE element method
Abstract

Localization of the delamination is an essential task that is conducted by various destructive and non-destructive approaches, which may require time, experts, and cost. Various intelligent non-destructive techniques are utilized to reduce time consumption, the need for expertise, and expenditures for localizing compositing delaminations. Yet, developing an accurate, robust, and low-cost intelligent delamination identification technique becomes a challenging task due to the anisotropy and the variation in the fiber orientation of the composites. Based on those issues, it is aimed to develop an effective intelligent model to localize delaminations in composite plates. This study measures the performance of the Bagging and Boosting techniques on delamination localization in thin composite plates. To validate the effectiveness of the proposed approaches; cross-ply, angle-ply, and quasi-isotropic composite plates having 2400 different delamination cases are considered. The bagging and boosting models are trained with the vibrational characteristics of the healthy and delaminated composite structures. The free vibration analysis is conducted for those structures to obtain the first five natural frequencies and the corresponding mode shapes. For this purpose, Classical Plate Theory is employed by using Finite Element Analysis. It is concluded that both bagging and boosting techniques are robust, precise, and accurate in localizing delamination. [ABSTRACT FROM AUTHOR]

Published
2024
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3. A preliminary study on the manufacturing aluminum–potassium feldspar metal matrix composite materials Eine vorläufige Studie zur Herstellung von Aluminium-Kalium-Feldspat-Metallmatrix-Verbundwerkstoffen

Author

Das, O., KIRAL, ZEKİ, YÜCEL ÖZTÜRK, YEŞİM, Aybarc, U., ÖZTÜRK, HASAN, UYULGAN, BAHADIR, and GÖREN KIRAL, BİNNUR

Abstract

© 2023 Wiley-VCH GmbH.This study reports the results of a preliminary study of manufacturing aluminum–potassium feldspar metal matrix composites including its castability and mechanical properties. The material was composed considering 0.25 %, 0.5 %, and 0.75 % additive ratios to examine the impact of the amount of potassium feldspar on the material and mechanical properties of the manufactured aluminum metal matrix composite material. Aluminum alloy (A356) was utilized as the matrix of the composition. The composite material was manufactured by the stir casting technique. The modulus of elasticity, yield strength, tensile strength, elongation, density, and quality index of the material parameters was taken into account to determine the materials′ practicality. The preliminary results indicated that potassium feldspar is a promising mineral to be utilized as an additive for aluminum metal matrix composites since it has a positive impact on mechanical properties. By optimizing the casting parameters, the positive aspects of the potassium feldspar may make the material more practical to be utilized in vast engineering applications.

Published
2023

4. List of contributors

Author

Adamiano, A., primary, Aldini, N. Nicoli, additional, Ambrosio, L., additional, Bartolo, P., additional, Bhattacharyya, D., additional, Boccaccini, A.R., additional, Cardon, L.K., additional, Castro, A.P.G., additional, Chicatun, F., additional, D'Amora, U., additional, Dapporto, M., additional, Das, O., additional, De Santis, R., additional, Dorigato, A., additional, El-Othmani, M.M., additional, Engel, E., additional, Fini, M., additional, Giardino, R., additional, Gloria, A., additional, Goonasekera, C.S., additional, Griffanti, G., additional, Gritsch, L., additional, Grøndahl, L., additional, Gunputh, U., additional, Hoyland, J., additional, Iafisco, M., additional, Iqbal, H.M.N., additional, Jack, K.S., additional, Keshavarz, T., additional, Kim, N.K., additional, Lacroix, D., additional, Le, H., additional, Lewandowska-Szumieł, M., additional, McKee, M.D., additional, Meng, D., additional, Montesi, M., additional, Navarro, M., additional, Nazhat, S.N., additional, Pacheco, D.P., additional, Padela, M.T., additional, Panseri, S., additional, Parrilli, A., additional, Pegoretti, A., additional, Petrini, P., additional, Planell, J.A., additional, Poologasundarampillai, G., additional, Ragaert, K.J., additional, Ruffini, A., additional, Rumiński, S., additional, Russo, T., additional, Saleh, K.J., additional, Sandri, M., additional, Sayeed, Z., additional, Shannigrahi, S., additional, Sharma, M., additional, Sharma, H., additional, Sprio, S., additional, Tampieri, A., additional, Tang, Simon Y., additional, Tanner, K.E., additional, Vyas, C., additional, and Zorzetto, L., additional

Published
2017
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8. Circular economy in biocomposite development : State-of-the-art, challenges and emerging trends

Author

Shanmugam, V., Mensah, R. A., Försth, M., Sas, G., Restás, Á., Addy, C., Xu, Q., Jiang, L., Neisiany, R. E., Singha, Shuvra, George, G., Jose E, T., Berto, F., Hedenqvist, Mikael S., Das, O., Ramakrishna, S., Shanmugam, V., Mensah, R. A., Försth, M., Sas, G., Restás, Á., Addy, C., Xu, Q., Jiang, L., Neisiany, R. E., Singha, Shuvra, George, G., Jose E, T., Berto, F., Hedenqvist, Mikael S., Das, O., and Ramakrishna, S.

Abstract

Biocomposites being environmentally-friendly alternative to synthetic composites are gaining increasing demand for various applications. Hence, biocomposite development should be integrated within a circular economy (CE) model to ensure a sustainable production that is simultaneously innocuous towards the environment. This review presents an overview of the state-of-the-art technologies for the adoption of the CE concept in biocomposite development. The study outlined the properties, environmental and economic impacts of biocomposites. A critical review of the life-cycle assessment of biocomposite for evaluating greenhouse gas emissions and carbon footprints was conducted. In addition, the opportunities and challenges pertaining to the implementation of CE have been discussed in detail. Recycling and utilisation of bio-based constituents were identified as the critical factors in embracing CE. Therefore, the development of innovative recycling technologies and an enhanced use of novel biocomposite constituents could lead to a reduction in material waste and environmental footprints. This article is one of the first studies to review the circularity of biocomposites in detail that will stimulate further research in enhancing the sustainability of these polymeric materials., QC 20220321

Published
2021
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9. Potential natural polymer-based nanofibres for the development of facemasks in countering viral outbreaks

Author

Shanmugam, V., Babu, K., Garrison, T. F., Capezza, Antonio Jose, Olsson, Richard, Ramakrishna, Seeram, Hedenqvist, Mikael S., Singha, Shuvra, Bartoli, M., Giorcelli, M., Sas, G., Försth, M., Das, O., Restás, Á., Berto, F., Shanmugam, V., Babu, K., Garrison, T. F., Capezza, Antonio Jose, Olsson, Richard, Ramakrishna, Seeram, Hedenqvist, Mikael S., Singha, Shuvra, Bartoli, M., Giorcelli, M., Sas, G., Försth, M., Das, O., Restás, Á., and Berto, F.

Abstract

The global coronavirus disease 2019 (COVID-19) pandemic has rapidly increased the demand for facemasks as a measure to reduce the rapid spread of the pathogen. Throughout the pandemic, some countries such as Italy had a monthly demand of ca. 90 million facemasks. Domestic mask manufacturers are capable of manufacturing 8 million masks each week, although the demand was 40 million per week during March 2020. This dramatic increase has contributed to a spike in the generation of facemask waste. Facemasks are often manufactured with synthetic materials that are non-biodegradable, and their increased usage and improper disposal are raising environmental concerns. Consequently, there is a strong interest for developing biodegradable facemasks made with for example, renewable nanofibres. A range of natural polymer-based nanofibres has been studied for their potential to be used in air filter applications. This review article examines potential natural polymer-based nanofibres along with their filtration and antimicrobial capabilities for developing biodegradable facemask that will promote a cleaner production., QC 20220112

Published
2021
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10. Influence of concrete’s mechanical properties on the cracking of concrete dams

Author

Ulfberg, A., Seger, A., Bista, D., Westberg Wilde, Marie, Johansson, Fredrik, Das, O., Sas, G., Ulfberg, A., Seger, A., Bista, D., Westberg Wilde, Marie, Johansson, Fredrik, Das, O., and Sas, G.

Abstract

Analytical methods of structural stability assessment of concrete dams are often too simple and thus conservative in their predictions. Without the actual foundation geometry, capacity for some rigid body failure modes are underestimated. This is problematic when deciding upon remediation activities of a dam that is considered unstable and may divert the restoration activities from where they are most impactful. In a previous study by Sas et al. 2019 where a section of an existing dam was scaled down and tested experimentally, the model indicated that several areas were experiencing large stresses, potentially leading to failure. This raised the research question whether another type of failure would occur for different material properties. Therefore, this paper delves into a probabilistic numerical approach, through finite element analysis, to evaluate dam stability based on randomization of a number of material properties such as modulus of elasticity, tensile strength, compressive strength, and fracture energy. The variation of the aforementioned material properties did not impact the failure mode, which was consistent among a broad range of material strengths., QC 20230508

Published
2021
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12. Naturally-occurring bromophenol to develop fire retardant gluten biopolymers

Author

Das, O., Kim, N. K., Hedenqvist, Mikael S., Bhattacharyya, D., Johansson, E., Xu, Q., Holder, Shima, Das, O., Kim, N. K., Hedenqvist, Mikael S., Bhattacharyya, D., Johansson, E., Xu, Q., and Holder, Shima

Abstract

The aim of the study was to impart fire retardancy in wheat gluten polymer through naturally-occurring additives such as lanosol. The fire properties of lanosol were compared with two other conventional brominated fire retardants (Tetrabromobisphenol A and Hexabromocyclododecane). Samples containing fire retardants and gluten were prepared through compression moulding process and then characterised for their fire and mechanical properties. All fire retardants enhanced the reaction-to-fire and thermal properties of gluten while generating V-0 (i.e. vertical position and self-extinguished) ratings in the UL-94 test. The presence of all the fire retardants increased the modulus of the gluten polymer but the fire retardant particles were detrimental for the tensile strength. Nevertheless, lanosol addition delayed ignition and lowered peak heat release rate of gluten by the maximum amount, thereby leading to relatively higher fire performance index (compared to the other fire retardants). Lanosol also allowed the gluten to create a dense char barrier layer during burning that impeded the transfer of heat and flammable volatiles. The fact that only 4 wt% lanosol was able to cause self-extinguishment under direct flame and reduce peak heat release rate by a significant 50% coupled with its inherent occurrence in nature, raises the question if lanosol can be a potential fire retardant in polymeric systems, although it is a bromophenol., QC 20191205

Published
2020
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15. Region-specific Cis- and trans-acting factors contribute to genetic variability in meiotic recombination in maize

Author

Timmermans, Marja C.P., Das, O. Prem, Bradeen, James M., and Messing, Joachim

Subjects
Genetic recombination -- Research, Corn -- Genetic aspects, Meiosis -- Research, Biological sciences
Abstract

Understanding the genetic basis for variability in recombination rates is important for general genetic studies and plant-breeding efforts. Earlier studies had suggested increased recombination frequencies in particular [F.sub.2] populations derived from the maize inbred A188. A detailed phenotypic and molecular analysis was undertaken to extend these observations and dissect the responsible factors. A heritable increase in recombination in the sh1-bz1 interval was observed in these populations. A factor causing an approximate twofold increase mapped to the A188 Sh1-Bz1 region, behaved as a dominant, cis-acting factor, affected recombination equally in male and female sporogenesis and did not reduce the well-studied complete interference in the adjacent bz1-wx interval. This factor also did not increase recombination frequencies in the c1-sh1 and bz1-wx intervals, demonstrating independent control of recombination in adjacent intervals. Additional phenotypic analysis of recombination in the c1-sh1 and bz1-wx intervals and RFLP analysis of recombination along chromosomes 7 and 5 suggested that heritable factors controlling recombination in these intervals act largely independently and in trans. Our results show that recombination in these populations, and possibly maize in general, is controlled by both cis- and transacting factors that affect specific chromosomal regions.

Published
1997

16. Characterization of a meiotic crossover in maize identified by a restriction fragment length polymorphism-based method

Author

Timmermans, Marja C.P., Das, O. Prem, and Messing, Joachim

Subjects
Meiosis -- Analysis, Corn -- Genetic aspects, Genetic recombination -- Analysis, Chromosome mapping -- Analysis, Methylation -- Genetic aspects, Biological sciences
Abstract

Genetic map lengths do not correlate directly with genome size, suggesting that meiotic recombination is not uniform throughout the genome. Further, the abundance of repeated sequences in plant genomes requires that crossing over is restricted to particular genomic regions. We used a physical mapping approach to identify these regions without the bias introduced by phenotypic selection. This approach is based on the detection of nonparental polymorphisms formed by recombination between polymorphic alleles. In an [F.sup.2] population of 48 maize plants, we identified a crossover at two of the seven restriction fragment length polymorphism loci tested. Characterization of one recombination event revealed that the crossover mapped within a 534-bp region of perfect homology between the parental alleles embedded in a 2773-bp unique sequence. No transcripts from this region could be detected. Sequences immediately surrounding the crossover site were not detectably methylated, except for an SstI site probably methylated via non-CpG or CpXpG cytosine methylation. Parental methylation patterns at this SstI site and at the flanking repetitive sequences were faithfully inherited by the recombinant allele. Our observations suggest that meiotic recombination in maize occurs between perfectly homologous sequences, within unmethylated, nonrepetitive regions of the genome.

Published
1996

17. Variegated phenotype and developmental methylation changes of a maize allele originating from epimutation

Author

Das, O. Prem and Messing, Joachim

Subjects
Corn -- Genetic aspects, Mutation (Biology) -- Research, Biological sciences
Abstract

A general epigenetic route which induces a continued decline in methylation and enhancement in expression potential of the P gene as a function of cell divisions in each plant meristem is responsible for the variegated phenotype of a maize allele. A functional gene has only chimeric tissues. The tissue specificity of P gene expression results in pericarp chimerism's variegation.

Published
1994

21. Utility of Sulfobutyl Ether β-Cyclodextrin Inclusion Complexes in Drug Delivery: A Review.

Author

DAS, O., GHATE, V. M., and LEWIS, S. A.

Subjects
*INCLUSION compounds, *CYCLODEXTRIN derivatives, *DRUG delivery systems, *PUBLIC transit, *ETHERS
Abstract

The potential of ß-cyclodextrins as a pharmaceutical aid has been established through several decades of research. However, some ß-cyclodextrins are reported to be toxic causing deleterious effects on long term usage. In the recent past, sulfobutyl ether ß-cyclodextrin, a modified ß-cyclodextrin has captured interest as a comparatively safer and effective ß-cyclodextrin for increasing the solubility and the bioavailability of biopharmaceutical classification system class II drugs. Sulfobutyl ether ß-cyclodextrin has demonstrated immense potential in addressing solubility and stability issues associated with formulation of drugs. Till date no comprehensive report on their utility in drug development has been published. Hence, this review focusses on the structure, properties, preparation techniques and applications of sulfobutyl ether ß-cyclodextrin inclusion complexes. Investigation of the feasibility of forming stable inclusion complexes of sulfobutyl ether ß-cyclodextrin and various drugs as guest molecules using molecular modelling techniques have been elaborated in the review. Incorporation of sulfobutyl ether ß-cyclodextrin complexes into novel drug delivery systems (liposomes and nanoformulations) have been summarized along with various methods of preparation and the clinical safety. Molecular modelling approach discussed in this review, coupled with wet-lab validation of the complexes, will enable a faster transit of the delivery systems into the clinical setting. [ABSTRACT FROM AUTHOR]

Published
2019
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22. High Resolution Sequence Stratigraphy and Seismic Data Integration Aid on Achieving Successful Horizontal Wells in Challenging Wara and Upper Burgan Reservoirs of Minagish Field, Kuwait

Author

El Gezeery, T. M., additional, Ebaid, A.., additional, Ismael, A.., additional, Silambuchlvan, J. K., additional, Padhy, G. S., additional, Abdul-Latif, A.., additional, Das, O.., additional, Al-Anezi, K.., additional, Elsherif, A. I., additional, and Ahmed, A. M., additional

Published
2015
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34. Evolution of aluminide coating microstructure on nickel-base cast superalloy CM-247 in a single-step high-activity aluminizing process

Author

Das, O. K., Singh, V., Joshi, S. V., Das, O. K., Singh, V., and Joshi, S. V.

Abstract

This study deals with the aluminizing of a directionally cast Ni-base superalloy, namely CM-247, by a single-step process using a high-activity pack. It is observed that significant incorporation of Al into the substrate surface during aluminizing continues over a period of about 1 hour and is not restricted merely to the first few minutes, as reported in the literature. Based on the microstructural details of the coatings formed at various stages of aluminizing, it is concluded that the coating growth in the above process takes place primarily by inward Al diffusion initially, followed by an intermediate stage when the growth involves both inward Al and outward Ni diffusion. In the final stages, the outward diffusion of Ni dominates the coating formation process. The above mechanism of coating formation is different from the one that prevails in the conventional two-step high-activity coating process in that the reaction front for the formation of NiAl remains spatially stationary despite the outward diffusion of nickel during the intermediate stage. It is also shown in the present study that the content of the Al source in the pack affects the coating structure significantly. It is further demonstrated that the microstructure of the aluminide coatings depends not only on the amount of Al incorporated in the sample during aluminizing but also on the time over which the uptake of this Al takes place.

Published
1998

46. Redefining the tectonostratigraphic and structural architecture of the Almora klippe and the Ramgarh–Munsiari thrust sheet in NW India

Author

Mandal, S., Robinson, D. M., Khanal, S., and Das, O.

Abstract

We integrate U–Pb zircon geochronology and εNd(0) values with field mapping to determine which tectonostratigraphic units are represented to the north, south and within the Almora klippe in Kumaun, NW India. Rock in the Almora klippe and north of the Main Central thrust (MCT) have Neoproterozoic (c.900 Ma) detrital zircon ages, coupled with similar εNd(0) (−7.6 to −11.8) values, suggesting that these two units are the same tectonostratigraphic unit, and that the Almora klippe is the southern continuation of the MCT or another thrust in the Greater Himalayan thrust system. However, north of the Almora klippe, detrital zircon age populations establish the presence of Palaeoproterozoic rock instead of the previous interpretation of Neoproterozoic rocks. These Palaeoproterozoic Lesser Himalayan (LH) rocks are carried by the Ramgarh–Munsiari thrust (RMT) dipping south and folded underneath the klippe. South of the klippe, the RMT carries both the less metamorphosed Palaeoproterozoic and Neoproterozoic LH rocks, in disagreement with the idea that only Neoproterozoic–Cambrian LH rocks are present south of Almora klippe. These results suggest that previous cross-sections in Kumaun are incorrect and must be re-evaluated.Supplementary material:U–Pb zircon geochronological data table is available at http://www.geolsoc.org.uk/SUP18777.

Published
2015
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50. Variegated phenotype and developmental methylation changes of a maize allele originating from...

Author

Prem Das, O. and Messing, Joachim

Subjects
*METHYLATION, *PLANT mutation, CORN genetics
Abstract

Presents the developmental methylation changes and the variegated phenotype (P-pr) of a maize allele originating from epimutation. Origin of the different allele; Details of the P-pr phenotype; Molecular characterization of P-pr; Genetic analysis of methylation; Correlation between methylation, phenotype and transcript levels in pericarp.

Published
1994
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