Shah Mohammad Azam Rishad | Composite Materials Science | FRP Composite Material Science Breakthrough Award

Posted on 25/09/202425/09/2024 by Fiber-Reinforced Polymer

Mr. Shah Mohammad Azam Rishad | Composite Materials Science | FRP Composite Material Science Breakthrough Award

Khulna University of Engineering & Technology, Bangladesh

Profile:

Google Scholar Profile

Current Position📊

Shah Mohammad Azam Rishad is an Assistant Researcher at Khulna University of Engineering & Technology (KUET), Bangladesh. His role involves active participation in cutting-edge research, where he integrates advanced materials science with computational approaches to tackle pressing challenges in the field. His primary focus is on Nano Trimaterial bonded joints and Ultra-High Temperature Ceramic Matrix Composites (UHTCMCs). With a strong inclination toward interdisciplinary research, Shah is continuously contributing to innovations in materials design and performance optimization.

Publication Achievements📚

Despite being early in his career, Shah Mohammad Azam Rishad has already contributed to several key publications in renowned scientific journals. His work on the prediction, optimization, and evaluation of Nano Trimaterial bonded joints using Finite Element Method (FEM) combined with various Machine Learning algorithms such as Random Forest, Neural Network, Support Vector Regression (SVR), and Decision Tree Regressor has received significant attention from the academic community. His publications explore the intersection of materials science and computational intelligence, making his research invaluable for industries aiming to optimize material behaviors and structural performance.

Ongoing Research🔬

Currently, Shah is deeply involved in two main research areas. One of his ongoing projects explores UHTCMCs (Ultra-High Temperature Ceramic Matrix Composites) and MMCs (Metal Matrix Composites). His research focuses on the fabrication processes of these materials, along with their microstructural analysis using state-of-the-art techniques like SEM imaging, EDS, and mapping. Shah’s goal is to better understand the material behaviors and unlock potential applications in industries such as aerospace, automotive, and electronics. His work on Nano Trimaterial bonded joints continues, where machine learning algorithms are employed to predict and enhance the structural performance of advanced materials.

Research Interests🔍

Shah’s research interests lie at the confluence of computational materials science, machine learning, and structural mechanics. He is particularly focused on developing innovative solutions for enhancing the mechanical properties of composites and nanomaterials. His areas of interest include:

Machine Learning Applications in Materials Science
Nano Trimaterial Bonded Joints
Ultra-High Temperature Ceramic Matrix Composites (UHTCMCs)
Metal Matrix Composites (MMCs)
Finite Element Method (FEM) for Structural Optimization
His passion for merging materials science with artificial intelligence has opened new avenues for optimizing material properties and creating smarter, more resilient structures.

Academic Background🎓

Shah Mohammad Azam Rishad holds a strong academic foundation in engineering and materials science, which has paved the way for his successful research endeavors. His education at KUET provided him with the skills necessary to excel in both theoretical and practical aspects of materials research. His academic journey reflects a commitment to understanding the deeper mechanics of materials and their applications across industries.

Scholarships and Awards🏆

Throughout his academic career, Shah has been the recipient of numerous scholarships and academic awards, acknowledging his dedication to research and innovation. His ability to secure funding for research projects and his academic excellence have set him apart as a promising researcher in the field of materials science.

Bioinformatics💻

While Shah’s core expertise lies in materials science, his interdisciplinary approach to research also draws upon aspects of bioinformatics. By applying computational methods to the analysis of material structures, Shah incorporates data-driven strategies to solve complex problems in materials behavior and optimization. His understanding of computational tools allows him to model and simulate material properties with high precision, leading to innovative research outcomes.

Professional Associations🌐

Shah is a member of several professional societies and associations, which provide him with a platform to collaborate with fellow researchers and stay updated on the latest advancements in materials science. His involvement in these organizations reflects his commitment to expanding his network and contributing to the scientific community on a broader scale.

Training & Workshops🎓

To further enhance his research capabilities, Shah actively participates in national and international workshops and training programs. These experiences allow him to stay abreast of the latest trends in materials research and computational methods. He has received hands-on training in microstructural analysis techniques, FEM simulation, and machine learning algorithms specific to materials science.

Oral Presentation🎤

Shah has presented his research findings at various conferences and symposia, where he shared his insights on the potential applications of machine learning in optimizing material properties. His ability to communicate complex ideas effectively has garnered attention and appreciation from peers and experts in the field.

Tasks Completed as a Researcher🛠️

Shah has successfully completed numerous tasks as a researcher, including the design and execution of experiments, data analysis using machine learning models, and the publication of his findings in respected journals. His responsibilities extend to mentoring junior researchers and collaborating with other faculty members to push the boundaries of materials science.

Success Factors🚀

The key to Shah’s success lies in his problem-solving mindset, interdisciplinary knowledge, and commitment to innovation. His ability to seamlessly blend theoretical knowledge with practical applications has allowed him to make significant contributions to his field. His work ethic and continuous pursuit of excellence have earned him a reputation as a dedicated and forward-thinking researcher.

Publications & Laboratory Experience🏭

Shah’s extensive laboratory experience in fabrication, microstructural analysis, and mechanical testing has been pivotal in his research. His publications reflect his in-depth knowledge of advanced materials and his ability to apply computational models for optimization. The hands-on experience Shah has gained in the lab has been complemented by his proficiency in FEM analysis and machine learning tools, making his contributions both practical and innovative.

📖Publications:

Paper Title: Evaluation of Stress Distributions in Trimaterial Bonded Joints with Nano-Resin Adhesive Using Machine Learning Models

Authors: SMA Rishad, MS Islam, MA Islam
Journal: Results in Materials
Year: 2024

Paper Title: Analysis of Stress Distribution of CFRP Bonded Joints: A Study of Numerical and Machine Learning Approach

Authors: SMA Rishad, MA Islam, MS Islam
Journal: Available at SSRN
Year: 2024

Anbang Chen | Composite Materials Science | Best Researcher Award

Posted on 08/01/202410/01/2024 by Fiber-Reinforced Polymer

Dr. Anbang Chen | Sichuan University | China

Professional Profiles:

Early Academic Pursuits

Anbang Chen embarked on an academic journey in materials science and engineering, delving deep into fundamental principles during their bachelor's at Qinghai University. Their Master's at Zhengzhou University honed their skills, and eventually, they pursued a Doctorate in Biomedical Engineering at Sichuan University. Throughout this educational odyssey, Anbang demonstrated a keen interest in materials research and thermodynamics, laying the groundwork for their impactful future endeavors.

Professional Endeavors

Anbang's research trajectory has been groundbreaking, marked by innovative studies in diverse fields. Their work includes pioneering designs for blast furnace refractory materials, investigating aluminum alloy strengthening mechanisms, and introducing novel concepts for enhancing thermal insulation materials. The fusion of nanotechnology and materials engineering in their projects showcases a multidisciplinary approach.

Contributions and Research Focus

Anbang's contributions have significantly advanced the understanding and application of materials in various industries. Their research spanned topics such as enhancing mechanical properties and thermal insulation of ceramics through hollow sphere fabrication, a concept they pioneered. Their work has impacted fields like high-temperature materials, porous thermal insulation materials, and carbon-based composites, offering solutions for improved industrial materials.

Accolades and Recognition

Anbang's contributions have garnered attention, reflected in their publications in esteemed journals like 'Journal of Asian Ceramic Societies,' 'Ceramics International,' and 'Progress in Natural Science: Materials International.' Their pioneering research methodologies and innovative concepts have earned recognition within the materials science community, establishing Anbang as a promising researcher.

Impact and Influence

His research has significantly impacted the field of materials science, particularly in enhancing the mechanical and thermal properties of ceramics. Their findings and methodologies have laid the foundation for future advancements in high-temperature materials, offering solutions for industries reliant on durable and thermally resistant materials.

Legacy and Future Contributions

Anbang's legacy lies in their pioneering research methodologies and innovative approaches to materials engineering. Their work has set a precedent for interdisciplinary collaborations and novel material fabrication techniques. Moving forward, Anbang aims to continue pushing boundaries in materials science, potentially exploring new avenues in flexible and stretchable devices, renewable energy technologies, and nanomaterials for electronics, contributing further to the global scientific community.

Citations:

Citations 100

h-index 6

i10-index 6

Notable Publications:

Mechanically stable all flexible supercapacitors with fracture and fatigue resistance under harsh temperatures- J Huang, S Han, J Zhu, Q Wu, H Chen, A Chen, J Zhang, B Huang, Advanced Functional Materials 32 (35), 2205708, 2022, (28)

Stretchable and self-healing ionic conductive elastomer for multifunctional 3D printable sensor- Q Wu, S Han, J Zhu, A Chen, J Zhang, Z Yan, J Liu, J Huang, X Yang, Chemical Engineering Journal 454, 140328, 2023, (16)

Trace nanoscale Al2O3 in Al2O3-MgAl2O4 castable for improved thermal shock performance- P Zhang, A Chen, D Ding, S Gao, X Liu, G Ye, G Liao, Ceramics International 45 (17), 23029-23036, 2019, (16)

The impact of mechanical grinding on calcium aluminate cement hydration at 30 C- K Liu, A Chen, X Shang, L Chen, L Zheng, S Gao, Y Zhou, Q Wang, G Ye, Ceramics International 45 (11), 14121-14125, 2019, (15)

Oxidation resistance of Al2O3–SiC–C castables with different grades of andalusite- A Chen, X Wang, W Zhou, Y Mu, C Parr, G Ye, Journal of Alloys and Compounds 851, 156836, 2021, (11)

Oxidation resistance of andalusite-bearing Al2O3–SiC–C castables containing reduced anti-oxidant- A Chen, Y Fu, Y Mu, Q Wang, C Parr, G Ye, Ceramics International 47 (10), 14579-14586, 2021, (10)

Novel porous ceramic with high strength and thermal performance using MA hollow spheres- A Chen, L Li, C Wang, Q Wang, Progress in Natural Science: Materials International 32 (6), 732-738, 2022, (3)

Enhancing thermal insulation and mechanical strength of porous ceramic through size-graded MA hollow spheres-A Chen, L Li, W Ren, C Wang, Q Wang, Ceramics International 49 (20), 33247-33254, 2023, (1)

Mope Edwin Malefane | Composite Materials Science | Best Researcher Award

Posted on 27/12/202327/12/2023 by Fiber-Reinforced Polymer

Mr. Mope Edwin Malefane | Institute for Nanotechnology and Water Sustainability Research | South Africa

Professional Profiles:

Early Academic Pursuits

Mope Edwin Malefane embarked on his academic journey with a BSc in chemical technology (applied chemistry) from the National University of Lesotho in 2011. His dedication and pursuit of excellence continued with an MTech in chemical engineering at Unisa, where he graduated Cum Laude in 2020, earning the Chancellor Award for Best Performance in Science Engineering and Technology research.

Professional Endeavors

Currently pursuing a Science Engineering and Technology PhD at the Institute for Nanotechnology and Water Sustainability at Unisa, under the mentorship of Prof. Alex T. Kuvarega, Malefane has showcased his expertise at both local and international conferences. His research focuses on fabricating S-scheme photocatalytic systems using perovskites for the efficient removal of organic pollutants in water.

Contributions and Research Focus

Mope Edwin Malefane's significant contributions lie in the realm of photocatalysis, nanotechnology, and composites, specifically geared toward water pollution remediation. His innovative approach centers on developing photocatalytic systems to tackle organic pollutants, leveraging perovskites as a promising solution. His dedication to this field is evidenced by the multitude of peer-reviewed manuscripts published and his extensive involvement as a reviewer for numerous journals.

Accolades and Recognition

Malefane's expertise has garnered recognition, notably winning the second-best poster award at the iNanoWS Guvhangano conference in 2023. His commitment and scholarly contributions have earned him funding from the National Research Foundation (NRF) for his doctoral studies. Additionally, he's a registered student member of the Water Institute of Southern Africa (WISA) and the South African Council for Natural Scientific Professions (SACNASP).

Impact and Influence

His research endeavors in developing innovative solutions for water pollution remediation and his active involvement in scholarly publications and conferences showcase Malefane's growing influence in the field. His role as a reviewer for numerous manuscripts further solidifies his impact on shaping the discourse in his areas of expertise.

Legacy and Future Contributions

Mope Edwin Malefane's legacy lies in his pursuit of pioneering solutions in photocatalysis, nanotechnology, and water sustainability. His commitment to research and his scholarly contributions indicate a promising future in advancing technologies for efficient water pollutant removal, leaving a lasting impact on environmental science and engineering.

Citations:

Citations 382

h-index 9

i10-index 9

Notable Publications:

Fabrication of direct Z-scheme Co3O4/BiOI for ibuprofen and trimethoprim degradation under visible light irradiation- ME Malefane, U Feleni, PJ Mafa, AT Kuvarega, Applied Surface Science 514, 145940, 2020, (71)

Cobalt oxide/copper bismuth oxide/samarium vanadate (Co3O4/CuBi2O4/SmVO4) dual Z-scheme heterostructured photocatalyst with high charge-transfer efficiency: Enhanced- PJ Mafa, ME Malefane, AO Idris, BB Mamba, D Liu, J Gui, AT Kuvarega, Journal of Colloid and Interface Science 603, 666-684, 2021, (55)

Cobalt (II/III) oxide and tungsten (VI) oxide pn heterojunction photocatalyst for photodegradation of diclofenac sodium under visible light- ME Malefane, U Feleni, AT Kuvarega, Journal of Environmental Chemical Engineering 8 (2), 103560, 2020, (52)

Co₃O₄/Bi₄O₅I₂/Bi₅O₇I C-Scheme Heterojunction for Degradation of Organic Pollutants by Light-Emitting Diode Irradiation- ME Malefane, ACS omega 5 (41), 26829-26844, 2020, (46)

Modulation of Z-scheme photocatalysts for pharmaceuticals remediation and pathogen inactivation: design devotion, concept examination, and developments- ME Malefane, PJ Mafa, TTI Nkambule, ME Managa, AT Kuvarega, Chemical Engineering Journal 452, 138894, 2023, (35)

Multi-elemental doped g-C3N4 with enhanced visible light photocatalytic activity: insight into naproxen degradation, kinetics, effect of electrolytes, and mechanism- PJ Mafa, ME Malefane, AO Idris, D Liu, J Gui, BB Mamba, AT Kuvarega, Separation and Purification Technology 282, 120089, 2022, (35)

Understanding the Principles and Applications of Dual Z-Scheme Heterojunctions: How Far Can We Go?- ME Malefane, PJ Mafa, M Managa, TTI Nkambule, AT Kuvarega, The Journal of Physical Chemistry Letters 14 (4), 1029-1045, 2023, (26)

A tetraphenylporphyrin/WO 3/exfoliated graphite nanocomposite for the photocatalytic degradation of an acid dye under visible light irradiation- ME Malefane, U Feleni, AT Kuvarega, New Journal of Chemistry 43 (28), 11348-11362, 2019, (26)

In‐Situ Synthesis of Tetraphenylporphyrin/Tungsten (VI) Oxide/Reduced Graphene Oxide (TPP/WO3/RGO) Nanocomposite for Visible Light Photocatalytic Degradation of Acid Blue 25- MEMDBNPJMDNMDUFDAT Kuvarega, Chemistryselect 4 (29), 8379-8389, 2019, (24)

Visible light responsive MoS2/Ag@ WO3/EG photoanode with highly stable Z-scheme induced circular electron motion pioneered by Exfoliated graphite for bisphenol a- PJ Mafa, ME Malefane, F Opoku, BB Mamba, AT Kuvarega, Chemical Engineering Journal 464, 142462, 2023, (9)

Mahvish Fatima | Composite Materials Science | Women Researcher Award

Posted on 26/12/202326/12/2023 by Fiber-Reinforced Polymer

Assist Prof Dr. Mahvish Fatima | Qassim university | Saudi Arabia

Professional Profiles:

Early Academic Pursuits

Dr. Mahvish Fatima's academic journey began with a strong foundation in Physics at The Islamia University of Bahawalpur, Pakistan, where she pursued her M.Sc., M.Phil., and ultimately her Ph.D. in Biomedical Physics. Her educational trajectory laid the groundwork for her multifaceted expertise in various scientific disciplines.

Professional Endeavors

Dr. Fatima has carved an impressive career path, notably serving as an Assistant Professor at the Department of Physics, Qassim University in Saudi Arabia. Her tenure in academia has been marked by a prolific research portfolio and substantial contributions to the field of Biomedical Physics.

Contributions and Research Focus

Dr. Fatima's contributions are multidimensional, spanning various scientific domains. Her notable research in characterizing brain tumors using Magnetic Resonance Spectroscopy stands as a significant milestone, offering potential insights into non-invasive diagnostic approaches. Additionally, her work in dose calculations for Brachytherapy with diverse radioactive sources holds promise for refining therapeutic methodologies.

Accolades and Recognition

Dr. Fatima's work has been recognized and acknowledged through numerous publications in reputable scientific journals. Her contributions have been pivotal in advancing the understanding and applications of various materials and methodologies in the field of physics, particularly in biomedical contexts.

Impact and Influence

Her research has made a significant impact, evident from the wide array of publications and collaborations, showcasing the depth and breadth of her expertise. Dr. Fatima's work in understanding the characteristics of materials and their applications in medical contexts has likely influenced the scientific community, providing insights that contribute to advancements in diagnostics, treatment, and materials science.

Legacy and Future Contributions

Dr. Fatima's legacy lies in her dedication to interdisciplinary research, bridging the gap between physics and biomedical applications. Her continuous pursuit of knowledge and innovation sets the stage for future breakthroughs in cancer treatment methodologies, nanomaterial synthesis, and medical diagnostics.

Citations:

Citations 123 122

h-index 5 5

i10-index 5 5

Notable Publications:

In vitro Cytotoxicity, MMP and ROS activity of green synthesized nickel oxide nanoparticles using extract of Terminalia chebula against MCF-7 cells- F Ibraheem, MH Aziz, M Fatima, F Shaheen, SM Ali, Q Huang, Materials Letters 234, 129-133, 2019, (41)

300 keV cobalt ions irradiations effect on the structural, morphological, optical and photovolatic properties of Zn doped TiO2 thin films based dye sensitized solar cells- MI Khan, M Sabir, GM Mustafa, M Fatima, A Mahmood, SA Abubshait, ...Ceramics International 46 (10), 16813-16819, 2020, (24)

An in vitro study of the photodynamic effectiveness of Go-Ag nanocomposites against human breast cancer cells-F Shaheen, M Hammad Aziz, M Fakhar-e-Alam, M Atif, M Fatima, ...Nanomaterials 7 (11), 401, 2017, (23)

Improved photovoltaic performance of dye-sensitized solar cells by Au-ion implantation of titania film electrodes- MI Khan, M Arfan, WA Farooq, A Shehzad, M Saleem, M Fatima, I Ahmad, ...Results in Physics 17, 103093, 2020, (18)

Role of 5d orbital of Re in ferromagnetism and thermoelectric characteristics of Cs2ReCl/Br6 double-perovskites: a density functional theory study- Q Mahmood, T Alshahrani, B Ul Haq, QA Gulfam, Y Tahir, NA Kattan, ...The European Physical Journal Plus 135 (9), 1-13, 2020, (17)

Lotfi Toubal | Composite Materials Science | Best Researcher Award

Posted on 26/12/202308/01/2024 by Fiber-Reinforced Polymer

Prof. Lotfi Toubal | University of Quebec at Trois-Rivieres | Canada

Professional Profiles:

Early Academic Pursuits

Lotfi Toubal's academic journey commenced with a Bachelor's degree in mechanical engineering from Constantine, Algeria. He furthered his education with a Master's degree in mechanical engineering from École nationale supérieure d'ingénieurs de constructions aéronautiques, Toulouse, France, followed by a Ph.D. in mechanical engineering from Université Toulouse III - Paul Sabatier, France, in 2004.

Professional Endeavors

Toubal's professional career began with a position as an Assistant Professor at École Nationale d’ingénieurs de Tarbes, France, from 2004 to 2005. He then served as a Research Assistant, focusing on industrial materials at the National Research Council of Canada (Boucherville) and École de technologie supérieure (Montreal, Canada) from 2006 to 2009. Since 2009, he has been a Professor in Mechanical Engineering at Université du Québec à Trois-Rivières, specializing in composite materials, fatigue, damage, and non-destructive material characterization.

Contributions and Research Focus

Dr. Toubal's primary research focus revolves around natural fiber composites (NFC) and their potential as alternatives to conventional composites. His work delves deeply into understanding the long-term behavior of NFC, particularly related to damage and fatigue life prediction. He emphasizes the importance of a comprehensive understanding of physical mechanisms specific to NFC and their microstructural evolution due to fatigue, supported by extensive experimental validation.

Accolades and Recognition

Lotfi Toubal's contributions to the field of mechanical engineering, especially in the realm of composite materials, fatigue, and fracture mechanics, have likely earned him recognition within the academic and scientific communities. This recognition may include accolades, publications in reputable journals, and invitations to speak at conferences or contribute as a reviewer for esteemed publications.

Impact and Influence

Toubal's research in the field of composite materials, particularly in exploring the damage of highly heterogeneous natural fiber composites, holds significant implications. His work might impact predictive simulation tools, offering insights into how these materials behave under stress, environmental factors, and various parameters. This understanding could shape the development of more reliable and durable load-bearing applications in engineering.

Legacy and Future Contributions

Dr. Lotfi Toubal's legacy lies in his pioneering efforts to unravel the complexities of natural fiber composites and their behavior under fatigue and damage. His future contributions are poised to further advance predictive modeling tools, using multivariate statistics and stochastic automata to enhance the understanding of materials behavior. Toubal's ongoing dedication promises to fuel advancements in composite materials, fracture mechanics, and non-destructive testing, leaving a lasting impact on the field of mechanical engineering.

Citations:

Citations 1780 1215

h-index 22 19

i10-index 32 30

Notable Publications:

Stress concentration in a circular hole in composite plate- L Toubal, M Karama, B Lorrain, Composite structures 68 (1), 31-36, 2005, (314)

Damage evolution and infrared thermography in woven composite laminates under fatigue loading- L Toubal, M Karama, B Lorrain, International journal of Fatigue 28 (12), 1867-1872, 2006, (255)

Investigating the effect of machining processes on the mechanical behavior of composite plates with circular holes- M Saleem, L Toubal, R Zitoune, H Bougherara, Composites Part A: Applied Science and Manufacturing 55, 169-177, 2013, (139)

Life and damage mode modeling applied to plastic gears- A Bravo, D Koffi, L Toubal, F Erchiqui, Engineering Failure Analysis 58, 113-133, 2015, (85)

Development of novel green and biocomposite materials: Tensile and flexural properties and damage analysis using acoustic emission- A Bravo, L Toubal, D Koffi, F Erchiqui, Materials & Design (1980-2015) 66, 16-28, 2015, (72)

Combining short flax fiber mats and unidirectional flax yarns for composite applications: Effect of short flax fibers on biaxial mechanical properties and damage behaviour- M Habibi, L Laperrière, G Lebrun, L Toubal, Composites Part B: Engineering 123, 165-178, 2017 (59)

Hygrothermal aging effects on mechanical and fatigue behaviors of a short- natural-fiber-reinforced composite- M Mahdi, L Toubal, JC Cuillière, V François, International Journal of Fatigue 108, 96-108, 2018, (54)