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289 results on '"Malek, Ali"'

1. GAP-DFT: A graph-based alchemical perturbation density functional theory for catalytic high-entropy alloys

Author

Hendy, Mohamed, Orhan, Okan K., Shin, Homin, Malek, Ali, and Ponga, Mauricio

Subjects
Condensed Matter - Materials Science
Abstract

High-entropy alloys (HEAs) exhibit exceptional catalytic performance due to their complex surface structures. However, the vast number of active binding sites in HEAs, as opposed to conventional alloys, presents a significant computational challenge in catalytic applications. To tackle this challenge, robust methods must be developed to efficiently explore the configurational space of HEA catalysts. Here, we introduce a novel approach that combines alchemical perturbation density functional theory (APDFT) with a graph-based correction scheme to explore the binding energy landscape HEAs. Our results demonstrate that APDFT can accurately predict binding energies for isoelectronic permutations in HEAs at minimal computational cost, significantly accelerating configurational space sampling. However, APDFT errors increase substantially when permutations occur near binding sites. To address this issue, we developed a graph-based Gaussian process regression model to correct discrepancies between APDFT and conventional density functional theory values. Our approach enables the prediction of binding energies for hundreds of thousands of configurations with a mean average error of 30 meV, requiring a handful of ab initio simulations.

Published
2024

2. Sustainable and eco-friendly 3D printing filament fabricated from different recycled solid wastes and evaluate its impact on interior and furniture design

Author

Noha A. Elessawy, Ahmed El Shakhs, Mohamed Fahmy El-Saka, M. Elsayed Youssef, Bayumy A.B. Youssef, and May A. Malek Ali

Subjects
3D printing, Filament composite, Dates palm fronds waste, Recycling, Polyethylene terephthalate (PET) waste, Furniture and interior design, Technology
Abstract

A designer's work is based on creativity, innovation, and fresh ideas therefore, they are constantly searching for creative designs, especially when it comes to furniture and internal design. Meanwhile, innovative materials and ideas are actively sought after by designers for usage in furniture and interior design. In this scope, our study explores the practical implications of using date palm fronds and plastic waste from drinking water bottle to create a composite with varying loadings of date palm frond nanoparticles (DPFNP) at 10, 20, and 30 wt % and its applications on furniture design. A desktop extruder was used to form the composites into filaments, which were subsequently used to create 3D-printed specimens. The impact of adding (DPFNP) on the composite's mechanical, thermal, and chemical properties was assessed. Polyethylene terephthalate (PET) drinking water bottle waste, and filament composites presented similar FTIR spectra; however, filament composites presented increased thermal stability and mechanical strength. The filament with 10 wt% DPFNP has been effectively printed with a 3D printer, demonstrating the practicality of employing the developed filaments and perhaps encouraging new uses in furniture and interior design. As a result, employing DPFNP in the recycled PET (RPET) matrix offers a cheap substitute for making filaments. It could increase the use of 3D printing in furniture and interior design by using more environmentally friendly materials. This result will be considered the first phase of future research investigation on a full-scale furniture prototype, examining its physical, thermal, and mechanical properties.

Published
2024
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5. Effects of direction reversals on patterns of active filaments

Author

Abbaspour, Leila, Malek, Ali, Karpitschka, Stefan, and Klumpp, Stefan

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Active matter systems provide fascinating examples of pattern formation and collective motility without counterparts in equilibrium systems. Here, we employ Brownian dynamics simulations to study the collective motion and self-organization in systems of self-propelled semiflexible filaments, inspired by the gliding motility of \textit{filamentous Cyanobacteria}. Specifically, we investigate the influence of stochastic direction reversals on the patterns. We explore pattern formation and dynamics by modulating three relevant physical parameters, the bending stiffness, the activity, and the reversal rate. In the absence of reversals, our results show rich dynamical behavior including spiral formation and collective motion of aligned clusters of various sizes, depending on the bending stiffness and self-propulsion force. The presence of reversals diminishes spiral formation and reduces the sizes of clusters or suppresses clustering entirely. This homogenizing effect of direction reversals can be understood as reversals providing an additional mechanism to either unwind spirals or to resolve clusters., Comment: 15 pages, 11 figures

Published
2021

9. New Class of Radially Adjustable Stentrievers for Acute Ischemic Stroke: Primary Results of the Multicenter TIGER Trial.

Author

Gupta, Rishi, Saver, Jeffrey L, Levy, Elad, Zaidat, Osama O, Yavagal, Dileep, Liebeskind, David S, Khaldi, Ahmad, Gross, Bradley, Lang, Michael, Narayanan, Sandra, Jankowitz, Brian, Snyder, Kenneth, Siddiqui, Adnan, Davies, Jason, Lin, Eugene, Hassan, Ameer, Hanel, Ricardo, Aghaebrahim, Amin, Kaushal, Ritesh, Malek, Ali, Mueller-Kronast, Nils, Starke, Robert, Bozorgchami, Hormozd, Nesbit, Gary, Horikawa, Masahiro, Priest, Ryan, Liu, Jesse, Budzik, Ronald F, Pema, Peter, Vora, Nirav, Taqi, M Asif, Samaniego, Edgar, Wang, Qingliang Tony, Nossek, Erez, Dabus, Guilherme, Linfante, Italo, Puri, Ajit, Abergel, Eitan, Starkman, Sidney, Tateshima, Satoshi, Jadhav, Ashutosh P, and TIGER Trial Investigators

Subjects
TIGER Trial Investigators, Humans, Thrombectomy, Aged, Middle Aged, Female, Male, Endovascular Procedures, Ischemic Stroke, goal, intracranial hemorrhage, laboratories, reperfusion, stent, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Neurosciences, Neurology & Neurosurgery
Abstract

[Figure: see text].

Published
2021

10. Developing Eco-Friendly 3D-Printing Composite Filament: Utilizing Palm Midrib to Reinforce High-Density Polyethylene Matrix in Design Applications

Author

Ahmed El Shakhs, Noha A. Elessawy, Mohamed Fahmy El-Saka, Gasser E. Hassan, and May A. Malek Ali

Subjects
3D printing, filament composite, date palm frond waste, recycling, high-density polyethylene, interior design, Organic chemistry, QD241-441
Abstract

Designers actively pursue the use of novel materials and concepts in furniture and interior design. By providing insights into their processing behavior and suitability for 3D-printing processes, this research helps to highlight the potential of using waste materials to create more environmentally friendly and sustainable 3D-printing filaments that can be used in furniture and interior design. Furthermore, the study evaluates the effect of incorporating palm midrib nanoparticles (DPFNPs) to reinforce a high-density polyethylene (HDPE) matrix with different loadings such as 10, 20, 30, 40, and 50 wt.%. The composites were extruded into filaments using a manual extruder, which was then utilized to fabricate 3D-printed specimens using a 3D-printing pen. The effect of adding DPFNPs on the composite’s chemical, thermal, and mechanical properties was evaluated, with a particular focus on how these modifications influence the melt flow rate (MFR) and, subsequently, the material’s printability. The results revealed that HDPE and filament composites presented similar FTIR spectra. On the other hand, the filament composites presented an increase in the thermal stability and a decrease in the mechanical strength with increasing DPFNP content in the HDPE matrix. The filaments were successfully printed using a 3D-printing pen. Thus, using DPFNPs in the HDPE matrix presents a low-cost alternative for filament production and may expand 3D-printing applications in interior and furniture design with more sustainable materials. Future work will delve into optimizing these composites for improved printability and assessing their recyclability, aiming to broaden their applications in 3D printing and beyond.

Published
2024
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13. Epoxy–Date Palm Fiber Composites: Study on Manufacturing and Properties

Author

Malek Ali

Subjects
Chemical technology, TP1-1185
Abstract

Epoxy-date palm fiber (DPF) composites have been synthesized and characterized successfully with various reinforced ratios of DPF (i.e., 5, 10, 15, and 20 wt%), where the mixture of Epoxy–DPF is poured into different prepared silicone molds. The first type of silicon molds is prepared to produce the samples of the Epoxy–DPF composites to conduct mechanical tests (i.e., impact, creep, and tensile). When the ratio of DPF is increased in the Epoxy matrix, a significant improvement was observed in the results of the mechanical tests. The Epoxy–DPF composites with 15 wt% exhibit a high hardness of 38.4 in comparison with other composite specimens. Maximum impact strength, creep strain, and tensile strengths were recorded to be 0.13 J/mm2, 0.03112, and 23.4 N/mm2, respectively, using 20 wt% DPF.

Published
2023
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14. Brushless DC motor performance monitoring using feature extraction and dimensionality reduction based on artificial intelligence technique.

Author

Mezeal, Malek Ali, Hussain, Ali Nasser, and Abed, Wathiq Rafa

Subjects
*ARTIFICIAL neural networks, *DISCRETE wavelet transforms, *ARTIFICIAL intelligence, *BRUSHLESS electric motors, *FEATURE extraction
Abstract

In the last few years, Brushless DC Motor (BLDC) was performed in different implementations, essentially sensitive applications; motors often run in hard loading conditions, especially after increasing production with complicated operating conditions. Therefore, overheating, overload, and other complex operating states are responsible for motor bearing faults. Bearing faults are essentially popular because of the details of drive operation. The monitoring and personifying bearing conditions are comparatively rare in many kinds of motor applications. Early diagnosis of bearing faults is meaningful in ensuring the seamless operation of BLDC motors in the industrial environment. The detection and classification of faults help to execute maintenance operations in an effective manner. This work shows an approach for identifying rolling elements imperfections in the BLDC motor in unsteady operating states. By using a Discrete Wavelet Transform (DWT), vibration and Stator current signal measurements represent the fault indexes to extract significant features; these features are highly reduced through the applications of Principle Components Analysis (PCA) to remove the redundant, irrelevant, or noisy data. A Recurrent Neural Network (RNN) and Feed Forward Neural Network (FFN) are used to expose and classify the existence of bearing faults and compare them from training time and accuracy; these networks were trained on the selected signal and can effectually recognize between healthy and fault signals, the accuracy of the faults diagnosis system equal to 99. 44% to recognize the kind of fault. The contribution of current work can be summarized as follows: due to the dynamic behavior of electrical machines, recurrent Neural Networks have been implemented instead of static Neural Networks that have been used in almost all previous work. Furthermore, the proposed technique can diagnose faults under stationary and non-stationary operating conditions. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Dynamical Transitions in a Dragged Growing Polymer Chain

Author

Malek, Ali and Kree, Reiner

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We extend the Rouse model of polymer dynamics to situations of non-stationary chain growth. For a dragged polymer chain of length $N(t) = t^\alpha$, we find two transitions in conformational dynamics. At $\alpha= 1/2$, the propagation of tension and the average shape of the chain change qualitatively, while at $\alpha = 1 $ the average center-of-mass motion stops. These transitions are due to a simple physical mechanism: a race duel between tension propagation and polymer growth. Therefore they should also appear for growing semi-flexible or stiff polymers. The generalized Rouse model inherits much of the versatility of the original Rouse model: it can be efficiently simulated and it is amenable to analytical treatment.

Published
2016

16. Validated Inventories of Non-Indigenous Species (NIS) for the Mediterranean Sea as Tools for Regional Policy and Patterns of NIS Spread

Author

Marika Galanidi, Mehdi Aissi, Malek Ali, Ali Bakalem, Michel Bariche, Angela G. Bartolo, Hocein Bazairi, Sajmir Beqiraj, Murat Bilecenoglu, Ghazi Bitar, Myra Bugeja, Aina Carbonell, Luca Castriota, Adbdelhafidh Chalabi, Melih Ertan Çinar, Branko Dragičević, Jakov Dulčić, Alaa Eldin Ahmed El-Haweet, Mahmoud M. S. Farrag, Julian Evans, Bella Galil, Laurent Guerin, Orit Hyams-Kaphzan, Rezart Kapedani, Elvis Kamberi, Silvia Livi, Vesna Mačić, Cécile Masse, Borut Mavrič, Martina Orlando-Bonaca, Atef Ouerghi, Slavica Petović, Lydia Png-Gonzalez, Patrick J. Schembri, Noa Shenkar, Yassine Ramzi Sghaier, Esmail Shakman, Asma Yahyaoui, Mehmet Baki Yokeş, and Argyro Zenetos

Subjects
non-indigenous species, Mediterranean Sea, validation, NIS baselines, IMAP, Biology (General), QH301-705.5
Abstract

This work presents refined, updated subregional and regional non-indigenous species (NIS) inventories for the Mediterranean Sea, validated by national and taxonomic experts, with species records observed until December 2020. These datasets will be used as the baselines for the implementation of the Integrated Monitoring and Assessment Programme for the Mediterranean (IMAP) and the Mediterranean Quality Status Report 2023. In total, 1006 non-indigenous species have been found in Mediterranean marine and brackish waters. The highest numbers of NIS were observed in Israel, Türkiye, Lebanon and Italy. Approximately 45 species were categorized as data deficient, either due to lack of consensus on their alien status or the validity of their identification. Polychaeta, Foraminifera and macroalgae were the groups with the highest numbers of controversial species. There was a general increase in the yearly rate of new NIS introductions after the late 1990s, which appears to be slowing down in the last decade, but this may be confounded by reporting lags and differential research efforts. Between 1970 and 2020 there has been a steep increase in the proportion of shared species present throughout all four Mediterranean subregions, which are predominantly transported via shipping and recreational boating. While Lessepsian species are gradually spreading westwards and northwards, there is still a considerable invasion debt accumulating in the eastern and central Mediterranean.

Published
2023
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17. Date Palm Fiber-Reinforced Recycled Polymer Composites: Synthesis and Characterization

Author

Malek Ali, Anwar H. Al-Assaf, and Mohammad Salah

Subjects
Polymers and polymer manufacture, TP1080-1185
Abstract

In this research study, Recycled Polymer (RP) composites are synthesized by using compression molding process, initial mixtures of RP and Date Palm Fibers (DPF) with four different lengths (e.g., 2.5, 5, 7.5, and 10 mm) and weight ratios (e.g., 5, 10, 15, and 20 wt%). The RP composites utilized in this study are polyethylene and polypropylene. The mixtures of RP and DPF are heated at 80°C and then poured into a priori prepared mold. The mold is designed to have three cavities for three specimens in order to characterize them through impact, creep, and tensile tests. The results showed that the hardness and impact increased with this process. In addition, an increase in the DPF up to 15 wt% was observed with a small increase in the DPF length. High creep resistance was also observed to be 10 mm with 20 wt% in the DPF specimens. The maximum strain was obtained in a 2.5 mm fiber length with 5% of DPF due to ductility of the plastic matrix. Moreover, with a small ratio of tough DPF, short fibers are unable to block or resist rapid plastic deformation in specimens. In fact, the DPF specimens of 10 mm length with 20 wt% exhibit a high tensile strength of 78 N/mm2 in comparison with other composite specimens. This is due to the length and content of fibers, which improve transferring action and microfailure modes.

Published
2022
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18. Promoting Students’ Mental Health through Design and Implementation of Multi-Activity Pods in Educational Institutions Using the WELL Building Standard

Author

Riham Mohsen Mohamed and May A. Malek Ali

Subjects
napping pod, students’ mental health, educational institutions, human-centered design, IoT, interior architecture, Technology, Engineering design, TA174
Abstract

The findings of several research studies conducted with university students that aimed to investigate the quantitative relationship between psychological distress, sleep difficulties, and homesickness have shown a significant interrelation among those factors. All the previous studies demonstrated benefits of napping, meditation, relaxation, and sharing feelings and experiences on students’ mental well-being, which could enrich the brain’s educational capacity, a matter that is relevant to a student’s learning level. This study aimed to encourage on-campus students to alleviate their feelings and relax. This process will help students to recharge their energy, in addition to increasing their alertness and focusing abilities, especially since the COVID-19 pandemic has intensified global stresses. In this study, the authors used a systematic review and literature analysis to understand the relationship between mental stresses and student performance. We then used an evidence-based research opinion poll and presented our work at different academic exhibitions for feedback as an approach for developing an experimental conceptual multi-activity unit that can be used across university campuses. The “Reviving Pod” was specifically designed for different activities: napping, meditation, and virtual communication. The designed approach utilizes state-of-the-art technologies (embedded sensors, smart ergonomic seats, contactless technologies, self-cleaning materials, IoT, virtual meetings platforms, mobile applications, etc.). A Reviving Pod can be located variably within a university campus. According to the poll results, we proposed a recreational zone design to accommodate the pods, as well as a diversity of activities that can encourage students to relieve their stresses and reinforce their health, consequently increasing their academic performance and supporting their well-being using the WELL Building Standard to promote better mental health, which is vital for students’ success.

Published
2023
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20. Discontinuities of energy derivatives in spin-density functional theory

Author

Malek, Ali M. and Balawender, Robert

Subjects
Physics - Classical Physics
Abstract

Standard approximations for the exchange-correlation functional are known to deviate from linear dependence of the energy on the electron and spin numbers (in -space). Violation of this flat-plane condition underlies the failure of all known approximate functionals to describe band gaps in strongly correlated systems. Then crucial for further development of functionals is recognition of the behavior of the energy as a function of, and its derivatives (derivatives discontinuity pattern at 0K limit). In this Letter, the energy derivatives are analyzed thoroughly. It is shown that apart from the well-known type of discontinuity pattern, three other patterns are possible in the vicinity of the singlet state point. The zero temperature limits of energy derivatives at this point are derived, found different for various directions. Existence of all discontinuity patterns is illustrated on the example of diatomic molecules set., Comment: Pages 1-15 are a manuscript, pages 16-22 are supplemental material (equations derivation, full details of the calculations), pages 23-50 are numerical data

Published
2013

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