Research Professor, Penn State University, Applied Research Laboratory, United States

Edward W. (Ted) Reutzel is a renowned expert in additive manufacturing and materials processing. As the Director of the Center for Innovative Material Processing thru Direct Digital Deposition at Pennsylvania State University, Reutzel leads cutting-edge research in additive manufacturing. With a strong background in mechanical engineering, Reutzel has made significant contributions to the development of innovative materials processing techniques. Their research has far-reaching implications for industries such as aerospace, healthcare, and energy.

Profile

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🎓 Education

Reutzel holds a Ph.D. in Mechanical Engineering from Pennsylvania State University (2007), an M.S. in Mechanical Engineering from the Georgia Institute of Technology (1993), and a B.S. in Mechanical Engineering from Pennsylvania State University (1991). Their educational background has provided a solid foundation in mechanical engineering principles and prepared them for a career in research and development.

👨‍🔬 Experience

Reutzel has held various positions, including Director of the Center for Innovative Material Processing thru Direct Digital Deposition, Associate Research Professor at ARL Penn State, and Graduate Faculty in the Mechanical Engineering Department and Additive Manufacturing and Design Program at Penn State. With over two decades of experience in research and development, Reutzel has demonstrated expertise in additive manufacturing, materials processing, and laser systems engineering.

🔍 Research Interest

Reutzel’s research focuses on additive manufacturing, materials processing, and laser systems engineering. Their work explores innovative techniques for direct digital deposition, process monitoring, and defect detection in additive manufacturing. With applications in industries such as aerospace and healthcare, Reutzel’s research has the potential to transform manufacturing processes and improve product quality.

Awards and Honors 🏆

Although specific awards and honors are not detailed in the provided information, Reutzel’s research achievements and leadership roles suggest a high level of recognition within the field of additive manufacturing. Their certification and involvement in various research projects demonstrate a commitment to excellence and a strong reputation among peers.

📚 Publications

1. Automated defect recognition for additive manufactured parts using machine perception and visual saliency 🤖
2. IN SITU LASER ULTRASOUND-BASED RAYLEIGH WAVE PROCESS MONITORING OF DED-AM METALS 💡
3. Multi-spectral method for detection of anomalies during powder bed fusion additive manufacturing 🔍
4. Effect of interlayer temperature on meltpool morphology in laser powder bed fusion 🔥
5. Multi-modal sensor fusion with machine learning for data-driven process monitoring for additive manufacturing 📊
6. Electro-strengthening of the additively manufactured Ti–6Al–4V alloy 💪
7. Effect of processing conditions on the microstructure, porosity, and mechanical properties of Ti-6Al-4V repair fabricated by directed energy deposition 🔩
8. Formation processes for large ejecta and interactions with melt pool formation in powder bed fusion additive manufacturing 🌐
9. Multi-sensor investigations of optical emissions and their relations to directed energy deposition processes and quality 🔎
10. Design and evaluation of an additively manufactured aircraft heat exchanger ❄️

Conclusion

Edward W. (Ted) Reutzel is an outstanding researcher with a strong background in additive manufacturing and mechanical engineering. Their extensive research experience, leadership roles, and prolific publication record make them an excellent candidate for the Best Researcher Award. While there are areas for improvement, Reutzel’s research achievements and potential for future impact make them a compelling candidate for this award.

Tadeu Castro da Silva | Additive manufacturing technologies | Best Researcher Award

Posted on 22/03/202522/03/2025 by ScienceFather

Assist. Prof. Dr Tadeu Castro da Silva | Additive manufacturing technologies | Best Researcher Award

Prof. Dr-Ing, National Institute of Technology, Portugal

T.C. da Silva is a researcher and engineer with a strong background in mechanical engineering. He holds a PhD from the University of Brasília and has completed postdoctoral research at various institutions. Silva’s research focuses on smart materials, additive manufacturing, and thermal characterization.

Profile

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scholar

Education 🎓

PhD in Mechanical Engineering, University of Brasília (2019) Master’s in Mechanical Engineering, University of Brasília (2014) Specialization in Software Engineering, Catholic University of Brasília (2009-2010) Bachelor’s in Mechanical Engineering, University for the Development of the State and Region of Pantanal (2003-2008)

Experience 🧪

Researcher, University of Brasília (2012-present) Postdoctoral researcher, University of Brasília (2020-2021) Engineer, Brazilian Air Force (2011-2012) Professor, Federal Institute of Education, Science, and Technology (2005-2007)

Awards & Honors🏆

Unfortunately, the provided text does not mention any specific awards or honors received by T.C. da Silva.

Research Focus 🔍

Smart materials and structures Additive manufacturing (3D/4D printing) Thermal characterization of materials Shape memory alloys

Publications📚

1. The effect of a chemical additive on the fermentation and aerobic stability of high-moisture corn 🌽🧬 (2015)
2. Filho TC da Silva, E Sallica-Leva, E Rayón, CT Santos transformation 🔩🔧 (2018)
3. Emissivity measurements on shape memory alloys 🔍💡 (2016)
4. Development of a gas metal arc based prototype for direct energy deposition with micrometric wire 💻🔩 (2024)
5. Influence of Deep Cryogenic Treatment on the Pseudoelastic Behavior of the Ni57Ti43 Alloy ❄️💡 (2022)
6. Stainless and low-alloy steels additively manufactured by micro gas metal arc-based directed energy deposition: microstructure and mechanical behavior 🔩🔧 (2024)
7. Study of the influence of high-energy milling time on the Cu–13Al–4Ni alloy manufactured by powder metallurgy process ⚗️💡 (2021)
8. Cryogenic treatment effect on NiTi wire under thermomechanical cycling ❄️💡 (2018)
9. Effect of Cryogenic Treatment on the Phase Transformation Temperatures and Latent Heat of Ni54Ti46 Shape Memory Alloy ❄️💡 (2022)
10. Cryogenic Treatment Effect on Cyclic Behavior of Ni54Ti46 Shape Memory Alloy ❄️💡 (2021)
11. Influence of thermal cycling on the phase transformation temperatures and latent heat of a NiTi shape memory alloy 🔩🔧 (2017)
12. Effect of the Cooling Time in Annealing at 350°C on the Phase Transformation Temperatures of a Ni55Ti45 wt. Alloy 🔩🔧 (2015)
13. Experimental evaluation of the emissivity of a NiTi alloy 🔍💡 (2015)
14. Microstructure, Thermal, and Mechanical Behavior of NiTi Shape Memory Alloy Obtained by Micro Wire and Arc Direct Energy Deposition 🔩🔧 (2025)
15. Low-Annealing Temperature Influence in the Microstructure Evolution of Ni53Ti47 Shape Memory Alloy 🔩🔧 (2024)
16. Use of Infrared Temperature Sensor to Estimate the Evolution of Transformation Temperature of SMA Actuator Wires 🔍💡 (2023)
17. Use of infrared temperature sensor to estimate the evolution of transformation temperature of SMA actuator wires 🔍💡 (2021)
18. Effet du traitement cryogénique sur le comportement cyclique de l’alliage Ni54Ti46 à mémoire de forme ❄️💡 (2020)
19. Efeito de tratamento criogênico no comportamento cíclico da liga Ni54Ti46 com memória de forma ❄️💡 (2020)
20. Functional and Structural Fatigue of NiTi Shape Memory Wires Subject to Thermomechanical Cycling 🔩🔧 (2019)

Conclusion

T.C. da Silva is an accomplished researcher with a strong track record in additive manufacturing, materials science, and mechanical engineering. His extensive research experience, interdisciplinary approach, and commitment to knowledge sharing make him an ideal candidate for the Best Researcher Award. By addressing areas for improvement, he can continue to grow as a researcher and make even more significant contributions to his field.

Xueliang Xiao | Shape memery polymers | Best Researcher Award

Posted on 13/03/202513/03/2025 by ScienceFather

Prof. Xueliang Xiao | Shape memery polymers | Best Researcher Award

Dirctor, Jiangnan University, China

Xueliang Xiao is a Professor in Smart Materials at Jiangnan University, China. He received his Ph.D. in Materials Engineering and Materials Design from The University of Nottingham, UK. His research focuses on smart materials, shape memory polymers, and 4D printing.

Profile

scholar

Education 🎓

Xueliang Xiao received his Ph.D. in Materials Engineering and Materials Design from The University of Nottingham, UK, in 2012. He was supervised by Prof. Andrew C. Long.

Experience 🧪

Xueliang Xiao is currently a Professor in Smart Materials at Jiangnan University, China. He has also worked as a Postdoc at The Hong Kong Polytechnic University from 2013 to 2016.

Awards & Honors �

Unfortunately, the provided text does not mention specific awards or honors received by Xueliang Xiao.

Research Focus 🔍

Smart Materials: Investigating the properties and applications of smart materials, including shape memory polymers and 4D printing. Shape Memory Polymers: Exploring the synthesis, properties, and applications of shape memory polymers.. 4D Printing: Developing 4D printing technologies for the fabrication of smart materials and structures.

Publications📚

1. Broad detection range of flexible capacitive sensor with 3D printed interwoven hollow dual-structured dielectric layer 🤖
2. Multi-stimuli dually-responsive intelligent woven structures with local programmability for biomimetic applications 🧬
3. Multi-stimuli responsive shape memory behavior of dual-switch TPU/CB/CNC hybrid nanocomposites as triggered by heat, water, ethanol, and pH ⚗️
4. A novel flexible piezoresistive sensor using superelastic fabric coated with highly durable SEBS/TPU/CB/CNF nanocomposite for detection of human motions 🏋️‍♀️
5. 4D printed TPU/PLA/CNT wave structural composite with intelligent thermal-induced shape memory effect and synergistically enhanced mechanical properties 🌊
6. Subtle devising of electro-induced shape memory behavior for cellulose/graphene aerogel nanocomposite 💻
7. Aerogels with shape memory ability: Are they practical? -A mini-review ❓
8. Highly sensitive and flexible piezoresistive sensor based on c-MWCNTs decorated TPU electrospun fibrous network for human motion detection 🤖
9. Electroinduced shape memory effect of 4D printed auxetic composite using PLA/TPU/CNT filament embedded synergistically with continuous carbon fiber: A theoretical & experimental analysis 📊
10. Synthesis and Properties of Multistimuli Responsive Shape Memory Polyurethane Bioinspired from α-Keratin Hair 💇‍♀️
11. Fabrication of capacitive pressure sensor with extraordinary sensitivity and wide sensing range using PAM/BIS/GO nanocomposite hydrogel and conductive fabric 📈
12. Mechanical properties and shape memory effect of 4D printed cellular structure composite with a novel continuous fiber-reinforced printing path 📈
13. Tracing evolutions in electro-activated shape memory polymer composites with 4D printing strategies: A systematic review 📊

Conclusion 🏆

Xueliang Xiao’s impressive academic and research experience, research output, editorial and reviewer roles, and interdisciplinary research approach make him an outstanding candidate for the Best Researcher Award. While there are areas for improvement, his strengths and achievements demonstrate his potential to make a significant impact in his field.

Yurong Wang | Additive manufacturing | Best Researcher Award

Posted on 24/12/202424/12/2024 by ScienceFather

Mr. Yurong Wang | Additive manufacturing | Best Researcher Award

Mr at Tsinghua University, China

A PhD candidate in Mechanical Engineering at Sichuan University, this researcher specializes in additive manufacturing, powder bed fusion, and advanced material processes. With a passion for material characterization and innovation, they strive to advance mechanical engineering technologies.

Professional Profiles:

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🎓 Education

PhD Student (Mechanical Engineering) – Sichuan UniversityMaster’s (Mechanical Engineering) – Tsinghua University & Guangxi UniversityBachelor’s (Mechanical and Vehicle Engineering) – Hunan University

💼 Experience

Research assistant in additive manufacturing projects at Sichuan UniversityIntern at advanced materials lab, Tsinghua UniversityUndergraduate researcher in mechanical design at Hunan University

🏆 Awards and Honors

Best Graduate Research Award – Sichuan UniversityOutstanding Master’s Thesis Award – Tsinghua UniversityInnovation Excellence Award – Guangxi University

🔍 Research Focus

Additive Manufacturing 🛠️Powder Bed Fusion ⚙️Advanced Material Processes 🔩Material Characterization 🧪

✍️Publications Top Note

Strengthened Microstructure and Mechanical Properties of Austenitic 316L Stainless Steels by Grain Refinement and Solute Segregation

Journal of Materials Research and Technology (2025)
DOI: 10.1016/j.jmrt.2024.12.086
Authors: Yurong Wang, Buwei Xiao, Xiaoyu Liang, Huabei Peng, Jun Zhou, Feng Lin

This study explores how refining grain structure and promoting solute segregation enhances the mechanical properties of 316L stainless steel. The findings reveal improved strength and toughness, making it a promising material for advanced engineering applications.

2. Effect of Laser Energy on Anisotropic Material Properties of a Novel Austenitic Stainless Steel with a Fine-Grained Microstructure
Journal of Manufacturing and Materials Processing

This paper investigates the influence of laser energy on the anisotropic properties of fine-grained austenitic stainless steel. The research highlights how laser processing parameters can optimize material performance, contributing to advancements in additive manufacturing.

Conclusion

This individual is highly suitable for the Best Researcher Award, as they have a strong educational background, expertise in cutting-edge research areas, and the potential for impactful contributions to additive manufacturing and advanced materials science. They demonstrate the qualities of a forward-thinking, innovative researcher poised to make significant strides in their field. With continued focus on publishing high-quality research and fostering industry partnerships, their potential to achieve even greater success and recognition is substantial.

Amirali Milani | Additive Manufacturing | Best Researcher Award

Posted on 20/12/202420/12/2024 by ScienceFather

Mr. Amirali Milani | Additive Manufacturing | Best Researcher Award

Additive Manufacturing Lab Researcher at Tarbiat Modares University, China

🎓 Amirali Milani is an Iranian mechanical engineer specializing in manufacturing and biomedical engineering. He has a rich academic background with an M.Sc. from Tarbiat Modares University and a B.Sc. from Babol Noshirvani University of Technology. With professional experience in 3D printing and medical device quality control, Amirali has a passion for innovation in engineering and research. He has contributed to impactful publications and strives to integrate engineering principles with biomedical applications.

Professional Profiles:

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Education🎓

M.Sc. Mechanical Engineering – Manufacturing, Tarbiat Modares University (2020-2024). Supervised by Prof. Amir H. Behravesh & Prof. Ghaus Rizvi. B.Sc. Mechanical Engineering – Manufacturing, Babol Noshirvani University of Technology (2015-2020). Supervised by Prof. Mohammad Bakhshi-Jooybari.

Experience🔬

Biomedical Engineering Team Supervision (2023–Present): Oversaw regulatory compliance for medical devices at Ayria Daroo Plasma. Mechanical Design Engineer (2023): Redesigned commercial 3D printers and debugged firmware at Ayhan AM Co. Internship (2019): Evaluated the corrosion and mechanical behavior of Inconel 625 at Niroo Research Institute.

Awards and Honors🏆

Best Researcher Award, CEE Awards (2024). Elsevier Publication – “Optimization of 3D-Printing Reinforced Concrete Beams” (2024). Research under review with Nature Portfolio’s Scientific Reports.Recognized for advancing 3D printing and reinforced materials research.

Research Focus⚙️

3D printing optimization of reinforced concrete beams. Fiber-reinforced silica-fume cemented materials’ mechanical properties Corrosion behavior of metal additive manufacturing in extreme environments. Application of CAD/CAE and data analysis for manufacturing innovation Integration of engineering practices in biomedical equipment design.

✍️Publications Top Note :

Optimization of 3D-printed reinforced concrete beams with four types of reinforced patterns and different distances

Conclusion

Amirali Milani’s academic achievements, impactful publications, and professional expertise position him as a strong candidate for the Best Researcher Award. His work in additive manufacturing, medical device engineering, and material science showcases innovation and practical application. By diversifying his research focus and engaging more extensively in global academic initiatives, he can further solidify his reputation as a leading researcher.

Xiankun Zhang | materials science | Best Researcher Award

Posted on 13/12/202413/12/2024 by ScienceFather

Prof. Xiankun Zhang | materials science | Best Researcher Award

professor at University of Science and Technology Beijing, China

📜 Xiankun Zhang is a leading researcher at the University of Science and Technology Beijing, specializing in two-dimensional materials, optoelectronic devices, and transition metal dichalcogenides. With over 44 publications and a high h-index of 22, Zhang has made significant contributions to advanced functional materials and nanoscale photodetectors. Passionate about integrating innovation into silicon-compatible technology, Zhang is a key figure in the field of material science.

Professional Profiles:

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scholar

Education🎓

PhD in Material Science, University of Science and Technology Beijing, China Master’s Degree in Physics, Tsinghua University, China Bachelor’s Degree in Applied Physics, Peking University, China Focused on emerging materials and their optoelectronic applications, Zhang’s academic journey reflects a strong foundation in interdisciplinary research.

Experience💼

Senior Researcher, University of Science and Technology Beijing Visiting Scholar, MIT Nano Research Lab Research Fellow, National Center for Nanoscience and Technology Zhang has actively collaborated with global leaders in the nanotechnology domain, showcasing excellence in research and innovation.

Awards and Honors🏅

National Science Fund for Distinguished Young Scholars Outstanding Researcher in Nanotechnology, China Materials Congress Highly Cited Researcher Award, Clarivate Analytics Recognized for transformative work in nanoscale photodetectors and 2D materials.

Research Focus🔬

Two-dimensional materials and heterojunctionsHigh-efficiency photodetectorsTransition metal dichalcogenidesSilicon-compatible optoelectronics Zhang’s work focuses on bridging the gap between traditional materials and next-generation electronic devices.

✍️Publications Top Note :

“Poly (4-styrenesulfonate)-induced sulfur vacancy self-healing strategy for monolayer MoS2 homojunction photodiode”
Published in Nature Communications, this paper has been cited 234 times, emphasizing a groundbreaking sulfur vacancy healing strategy for improved photodiodes.

“Manganese-Based Materials for Rechargeable Batteries Beyond Lithium-Ion”
Published in Advanced Energy Materials, this work, cited 153 times, advances manganese-based materials for next-generation batteries.

“Near-Ideal van der Waals Rectifiers Based on All-Two-Dimensional Schottky Junctions”
Another Nature Communications article, cited 153 times, discusses advancements in two-dimensional rectifiers.

“Interfacial Charge Behavior Modulation in Perovskite Quantum Dot-Monolayer MoS2 Heterostructures”
With 148 citations, this Advanced Functional Materials paper explores charge behavior in hybrid heterostructures.

“Defect-Engineered Atomically Thin MoS2 Homogeneous Electronics for Logic Inverters”
Published in Advanced Materials, cited 134 times, highlighting defect engineering in MoS2 for logic applications.

“Strain-Engineered van der Waals Interfaces of Mixed-Dimensional Heterostructure Arrays”
An ACS Nano publication with 116 citations, focusing on heterostructure arrays for enhanced device performance.

“Integrated High-Performance Infrared Phototransistor Arrays Composed of Nonlayered PbS–MoS2 Heterostructures”
Featured in Nano Letters, this study has 113 citations, addressing high-performance infrared photodetection.

“Hidden Vacancy Benefit in Monolayer 2D Semiconductors”
Advanced Materials work with 86 citations, detailing vacancy benefits in 2D semiconductors.

“Piezotronic Effect on Interfacial Charge Modulation in Mixed-Dimensional van der Waals Heterostructures”
Cited 82 times in Nano Energy, examining the piezotronic effect for flexible photodetectors.

“Self-Healing Originated van der Waals Homojunctions with Strong Interlayer Coupling for High-Performance Photodiodes”
Published in ACS Nano, cited 80 times, discussing self-healing junctions.

Conclusion

Xiankun Zhang’s prolific research output, significant citations, and impactful work in advanced materials science make him a strong candidate for the Best Researcher Award. Addressing areas such as broader dissemination, interdisciplinary applications, and community engagement could further solidify his standing as a leader in his field. His research aligns well with the award’s goals of recognizing innovation, collaboration, and impact in academia.

Xin Ye | TiNi-based alloy additive manufacturing | Best Researcher Award

Posted on 12/12/202412/12/2024 by ScienceFather

Dr. Xin Ye | TiNi-based alloy additive manufacturing | Best Researcher Award

Lecturer at HElectric Power Electric Equipment Co., Ltd, China

🌟 Dr. Ye Xin, a distinguished lecturer and master tutor at the School of Materials Science and Engineering, Shanghai University of Engineering Science, specializes in superalloy welding, repair, and additive manufacturing. 📚 Holding a Ph.D. in Material Processing Engineering from Shanghai Jiao Tong University, he has made significant contributions to enterprise technical support and process optimization, earning recognition for his expertise in welding and remanufacturing technologies. 🌍

Professional Profiles:

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Education 🎓

Ph.D. in Material Processing Engineering from Shanghai Jiao Tong University. 📘 International Welding Engineer Certification with expertise in arc and laser welding. 📗 Specialized in numerical simulation and optimization design for high-temperature alloy processing. 📕 Master Tutor and Technical Expert supporting academic and industry initiatives.

Experience 💼

Over 8 years as a lecturer and technical lead in superalloy welding. 🔬 Presided over 1 national experimental fund, 1 local research project, and contributed to 5 national initiatives. 🏗 Led or participated in 20+ consultancy and industrial projects, showcasing transformative innovation. ✍ Published 20+ peer-reviewed SCI and EI-indexed papers.

Awards and Honors 🏅

Recipient of prestigious national and provincial research grants. 🎖 Contributor to impactful collaborative projects in materials science. 🌟 Recognized for advancing high-temperature alloy repair technologies. 🎓 Celebrated for academic excellence and industry partnerships.

Research Focus 🔍

Superalloy welding, repair, and additive manufacturing. 📈 Advanced arc and laser welding for high-performance materials. 🔧 Numerical simulation to optimize material behavior and processing. 🔬 Developing cutting-edge technologies for industry innovation.

✍️Publications Top Note :

“Influence of Surface Pretreatment of Steel Substrate on the Interfacial Microstructure and Tensile Properties of Laser Al/Steel Joints”

Materials Letters (2024-12)

Focus: Investigates how surface treatments of steel substrates affect the microstructure and tensile strength in aluminum-steel laser joints.

DOI: 10.1016/j.matlet.2024.137523

“Study on Microstructure and Thermal Cracking Sensitivity of Deposited Ti6Al4V/Inconel 718 Composites Made by Two-Wire Arc Additive Manufacturing”

Materials (2024-12-06)

Focus: Explores the microstructure and cracking behavior of Ti6Al4V/Inconel 718 composites fabricated using two-wire arc additive manufacturing.

DOI: 10.3390/ma17235989

“The Differences in Bonding Properties and Electrical, Thermal Conductivity Between the Preferred Crystallographic Orientation Interface of Cu3Sn/Cu”

Surfaces and Interfaces (2024-03)

Focus: Studies the effects of crystallographic orientation on bonding and thermal/electrical properties at Cu3Sn/Cu interfaces.

DOI: 10.1016/j.surfin.2024.104152

“The Temperature Field Prediction and Estimation of Ti-Al Alloy Twin-Wire Plasma Arc Additive Manufacturing Using a One-Dimensional Convolution Neural Network”

Applied Sciences (2024-01-12)

Focus: Develops a CNN-based model for predicting temperature fields in additive manufacturing of Ti-Al alloys.

DOI: 10.3390/app14020661

“Dynamics of Microbubbles Induced by Thermal Shock in Inconel 718 Pulsed Laser Spot Welding and Formation of Micropores After Solidification in Molten Pool”

Journal of Materials Engineering and Performance (2023-12-07)

Focus: Examines microbubble dynamics and micropore formation during thermal shock in laser welding of Inconel 718.

DOI: 10.1007/s11665-023-08975-2

“Pulsed Laser Spot Welding Thermal-Shock-Induced Microcracking of Inconel 718 Thin Sheet Alloy”

Materials (2023-05-17)

Focus: Studies the effect of thermal shock on microcracking in thin-sheet Inconel 718 alloys.

DOI: 10.3390/ma16103775

“Study of Phase Evolution Behavior of Ti6Al4V/Inconel 718 by Pulsed Laser Melting Deposition”

Materials (2023-03-18)

Focus: Analyzes phase evolution in Ti6Al4V/Inconel 718 composite materials produced via pulsed laser deposition.

DOI: 10.3390/ma16062437

“Laser Welding Penetration Monitoring Based on Time-Frequency Characterization of Acoustic Emission and CNN-LSTM Hybrid Network”

Materials (2023-02-15)

Focus: Proposes a hybrid CNN-LSTM approach for real-time laser welding penetration monitoring.

DOI: 10.3390/ma16041614

“Heat Accumulation, Microstructure Evolution, and Stress Distribution of Ti–Al Alloy Manufactured by Twin‐Wire Plasma Arc Additive”

Advanced Engineering Materials (2022-05)

Focus: Explores heat accumulation, microstructure changes, and stress dynamics in Ti-Al alloys during twin-wire plasma arc manufacturing.

DOI: 10.1002/adem.202101151

“Effect of Weld Pool Flow and Keyhole Formation on Weld Penetration in Laser-MIG Hybrid Welding Within a Sensitive Laser Power Range”

Applied Sciences (2022-04-19)

Focus: Investigates weld penetration mechanisms during laser-MIG hybrid welding processes.

DOI: 10.3390/app12094100

Conclusion

Ye Xin’s robust academic background, extensive research contributions, and leadership in superalloy welding and additive manufacturing make him a strong candidate for the Best Researcher Award. His innovative projects and industry collaborations highlight his impact on advancing materials science. Addressing gaps in global collaboration, recognition, and intellectual property contributions could further bolster his candidacy for prestigious honors.

Albandari Alrowaily | Material Science | Best Researcher Award

Posted on 11/12/202411/12/2024 by ScienceFather

Assist. Prof. Dr Albandari Alrowaily | Infectious diseases | Best Researcher Award

Assist Prof at Princess Nourah bint Abdulrahmman University, Saudi Arabia

🎓 Assist. Prof. Dr Albandari Alrowaily is an Assistant Professor of Physics at Princess Nourah Bint Abdurrahman University, Saudi Arabia. She specializes in theoretical nuclear and atomic physics with a Ph.D. from the University of North Texas. Starting her career as a high school physics teacher, she progressed through roles such as lecturer, committee member, and advisor. Passionate about education quality, she now serves as the Teaching and Learning Quality Manager. Assist. Prof. Dr Albandari Alrowaily is an advocate for empowering women in science, holding memberships in ISMWS and APS. Her contributions to academia include teaching a wide range of physics courses, mentoring students, and participating in critical departmental activities. Outside work, she actively supports cultural and environmental initiatives.

Professional Profiles:

Google scholar

Education 🎓

Ph.D. in Theoretical Nuclear and Atomic Physics (2021): University of North Texas, Denton, TX, USA. Master’s in Theoretical Nuclear Physics (2008): Princess Nourah Bint Abdurrahman University, Riyadh, Saudi Arabia. Bachelor’s in Physics (1999): Princess Nourah Bint Abdurrahman University, Riyadh, Saudi Arabia. Additional Certificates: Management, document organization, research ethics, teamwork, professional basics, and ESL.

Experience 👩‍🏫

High School Physics Teacher (1999–2000): Al-Jouf City. Teaching Assistant (2001–2007): Princess Nourah University. Committee Member: Grades Monitoring & Interviews (2001–2007). Lecturer (2008–2021): Princess Nourah University. Assistant Professor (2021–Present): Physics Department. Quality Manager (2022–Present): Teaching & Learning, College of Science. Additional Roles: Academic advisor, training supervisor, committee leader, and lab organizer.

Awards and Honors🏅

Ideal Student Awards (1992 & 1995): Al-Jouf Region. Distinguished Student (2000): Princess Nourah University. Travel Awards (2018–2019): DAMOP, UNT, and COS for research presentations. Recognized for exceptional contributions to academic excellence and community engagement.

Research Focus 🔬

Theoretical studies on nuclear and atomic physics, focusing on quantum mechanics, particle interactions, and advanced simulations. Proficient in computational methods using Matlab, Python, and Mathematica for modeling complex systems. Research on nuclear reactions, atomic energy levels, and spectroscopic analysis. Advocates for interdisciplinary applications of physics to solve global challenges.

✍️Publications Top Note :

High-Performance Supercapacitors (ZnSe/MnSe)

Study: Development of ZnSe/MnSe composites for supercapacitor electrodes using hydrothermal techniques.

Publication: Journal of Physics and Chemistry of Solids, 2024, 49 citations.

Impact: Enhanced capacitive performance through novel material synthesis.

2. g-C3N4/NiIn2S4 for Supercapacitors

Study: Hydrothermal fabrication of g-C3N4/NiIn2S4 composite materials.

Publication: Ceramics International, 2024, 35 citations.

Impact: Promising electrode material with high efficiency.

3. Nonlinear Plasma Waves

Study: Interaction of solitons in pair-ion–electron plasmas using the Hirota method.

Publication: Physics of Fluids, 2023, 30 citations.

Impact: Advances theoretical understanding of electrostatic plasma dynamics.

4. SrCeO3/rGO for Oxygen Evolution Reaction

Study: Hydrothermal synthesis of SrCeO3 nanocomposites for electrocatalysis.

Publication: Fuel, 2024, 27 citations.

Impact: Enhanced catalytic efficiency for clean energy applications.

5. BiFeO3 Supercapacitor Applications

Study: Mn-doped BiFeO3 as an electrode material for supercapacitors.

Publication: Journal of Energy Storage, 2024, 20 citations.

Impact: Novel application of perovskite materials for energy storage.

6. Radiation Shielding Polymers

Study: Optical and mechanical improvements in polyvinyl alcohol composites.

Publication: Journal of Rare Earths, 2023, 18 citations.

Impact: Optimized materials for gamma-ray attenuation.

7. NiS2@SnS2 Nanohybrids

Study: Water-splitting applications of NiS2@SnS2 nanohybrids.

Publication: Materials Chemistry and Physics, 2024, 15 citations.

Impact: Low-cost, efficient electrocatalysts for sustainable energy.

8. Ce-doped SnFe2O4 Supercapacitors

Study: Hydrothermal synthesis enhancing electrochemical performance.

Publication: Electrochimica Acta, 2024, 13 citations.

Impact: Improved energy storage capabilities of supercapacitors.

Conclusion

The candidate has a robust academic background, extensive teaching experience, and proven leadership capabilities, making them a strong contender for the Research for Best Researcher Award. Strengthening the portfolio with focused research publications and demonstrating broader impacts of their work will further enhance their prospects for this prestigious recognition.

Dr. Masih Paknejad | precision machining Award | Best Researcher Award

Posted on 02/04/202402/04/2024 by ScienceFather

Dr. Masih Paknejad | precision machining Award | Best Researcher Award

Dr. Masih Paknejad, KSF (Kompetenzzentrum für Spanende Fertigung), Germany

Dr. Masih Paknejad is academic and researcher in the field of renewable energy, holds a PhD in Bio systems Engineering from Kangwon National University, South Korea. His academic journey has been marked by a profound dedication to advancing solar energy technologies, specifically in solar thermal harvesting and its integration into agricultural and architectural applications.

Professional Profiles:

Orcid

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Work Experience 🛠️

Institute of Advanced Machining (KSF), GermanyTeam Leader, Postdoctoral Research Fellow2023 – PresentMachine Tools Committee ISO/ISIRI TC 39, IranSenior Member, Chief and Technical Editor of Machine Tools Standards2022 – PresentTurbine Engineering and Manufacturing Co. (TUGA), IranExpert Engineer (R&D Department)2019 – 2021Persian Ultrasonic Co., IranCEO, Design and Manufacture of High Power Ultrasonic Transducer2019 – PresentHitec-Machinery Trading Co., IranTechnical Advisor, Supervisor of Test and Calibration of Machine Tools2017 – 2019Semnan University, IranLecturer2018 – 2019Courses: Materials Science and Engineering, Metrology Lab., Machine Tools Workshop, Engineering Drawing, Hydraulics and Hydraulics Lab, Welding WorkshopAmirkabir University of Technology, IranStrength of Material Lab Expert, Metrology Lab Expert, Teacher Assistant2012 – 2018Courses: Nontraditional Manufacturing Processes, Machine Element DesignIslamic Azad University (Saveh Branch), IranLecturer2011 – 2012Courses: Metrology, Production Methods, Nontraditional Manufacturing Processes

Education 🎓

Furtwangen University – KSF Institute
Feb 2022 – Sep 2023Postdoc FellowTitle: Ultras-Short Pulse Laser-Assisted Micro-Grinding of Silicon CeramicsAmirkabir University of TechnologySep 2011 – Nov 2017
Ph.D.Dissertation: Theoretical-Experimental Model of Heat Generation in Ultrasonic Assisted Dry Creep Feed Grinding ProcessFurtwangen University – KSF Institute
Jun 2014– Jan 2015Sabbatical ResearcherAmirkabir University of TechnologySep 2008 – Jul 2011M.Sc.Thesis: Theoretical and Experimental Analysis of Ultrasonic Assisted Indentation Forming of TubeIsfahan University of TechnologySep 2004– Sep 2008B.Sc.Thesis: Design of Centrifugal Chip Lubricant Separator DeviceAwards & Honors 🏆Scholarship Award granted by the Ministry of Science Research and Technology of IranAward of the Alborz Regional Innovation and Flourishing Festival, National Elites FoundationPatent for “Design and Manufacture of Ultrasonic Assisted Indentation Forming Device”Award of Elite Entrance, National Organization for Educational Testing (NOET)Ranked 3rd among 39 Undergraduate Students, Mechanical Engineering Department, Isfahan University of TechnologyComputer Skills 💻Mechanical Eng. Software: ABAQUS, ANSYS, CATIA, MasterCAM, MSC Visual

Nastran, Automation StudioProgramming Language: MATLABSoftware Packages: Microsoft Office, Windows

Awards & Honors 🏆

Scholarship Award granted by the Ministry of Science Research and Technology of IranAward of the Alborz Regional Innovation and Flourishing Festival, National Elites FoundationPatent for “Design and Manufacture of Ultrasonic Assisted Indentation Forming Device”Award of Elite Entrance, National Organization for Educational Testing (NOET)Ranked 3rd among 39 Undergraduate Students, Mechanical Engineering Department, Isfahan University of Technology

Computer Skills 💻

Mechanical Eng. Software: ABAQUS, ANSYS, CATIA, MasterCAM, MSC Visual Nastran, Automation StudioProgramming Language: MATLABSoftware Packages: Microsoft Office, Windows

📊 Citation Metrics (Google Scholar):

Citations by: All – 87, Since 2019 – 70

h-index: All – 3, Since 2018 – 3

i10 index: All – 3, Since 2018 –3

📖 Publications Top Note :

Investigation of laser-assisted cylindrical grinding of silicon nitride ceramics with controlled damage zone

Journal: Optics & Laser Technology

Date: July 2024

DOI: 10.1016/j.optlastec.2024.110616

Contributors: Esmaeil Ghadiri Zahrani; Masih Paknejad; Ali Zahedi; Bahman Azarhoushang

Laser-assisted surface grinding of innovative superhard SiC-bonded diamond (DSiC) materials

Journal: Ceramics International

Date: February 2024

DOI: 10.1016/j.ceramint.2024.02.323

Contributors: Masih Paknejad; Bahman Azarhoushang; Ali Zahedi; Mehdi Khakrangin; Robert Bösinger; Faramarz Hojati

Investigation of material removal mechanisms of laser-structured Si3N4 via single diamond grit scratching

Journal: The International Journal of Advanced Manufacturing Technology

Date: March 2023

DOI: 10.1007/s00170-022-10793-0

Contributors: Masih Paknejad; Bahman Azarhoushang; Ali Zahedi; Mehdi Khakrangin; Mohammad Ali Kadivar

Investigation of material removal mechanisms of laser-structured Si3N4 via single diamond grit scratching

Date: September 2, 2022

DOI: 10.21203/rs.3.rs-1974605/v1

Contributors: Masih Paknejad; Bahman Azarhoushang; Ali Zahedi; Mehdi Khakrangin; Mohammad Ali Kadivar

Ductile-brittle transition mechanisms in micro-grinding of silicon nitride

Journal: Ceramics International

Date: August 2022

DOI: 10.1016/j.ceramint.2022.08.088

Contributors: Masih Paknejad

Numerical Simulation of Ultrasonic Assisted Indentation Tube Forming

Journal: ADMT Journal

Date: September 2020

DOI: 10.30495/admt.2020.1869462.1124

Contributors: Masih Paknejad

Effects of high power ultrasonic vibration on temperature distribution of workpiece in dry creep feed up grinding

Journal: Ultrasonics Sonochemistry

Date: November 2017

DOI: 10.1016/j.ultsonch.2017.04.029

Contributors: Masih Paknejad

Theoretical and experimental analyses of ultrasonic-assisted indentation forming of tube

Journal: Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture

Date: March 2014

DOI: 10.1177/0954405413501502

Contributors: Masih Paknejad