Sha Yin | Lightweight composites | Best Researcher Award

Published on by Academic Achievements

Ms. Sha Yin | Lightweight composites | Best Researcher Award

Ms. Sha Yin | Lightweight composites – Professor at Beihang University, China

Prof. Sha Yin is an internationally respected researcher in the domain of mechanical engineering, specializing in the design and mechanics of multifunctional composites and lightweight structural materials. His contributions bridge the gap between bioinspired architectures and engineering applications, delivering significant insights into the behavior of lattice structures, energy-absorbing systems, and multifunctional designs. Known for his innovative work on hierarchical honeycombs and 3D metamaterials, Prof. Yin has gained wide academic and industry recognition for transforming theoretical mechanics into practical solutions for aerospace, automotive, and advanced manufacturing sectors.

Academic Profile 

ORCID  |  SCOPUS

Education

Prof. Yin earned his Ph.D. in Engineering Mechanics from Harbin Institute of Technology, a globally esteemed institution recognized for its pioneering research in materials and structural mechanics. During his doctoral studies, he focused on the topology optimization and mechanical performance of ultralight lattice materials. His academic foundation is rooted in a strong interdisciplinary background combining mechanics, materials science, and computational modeling—enabling him to address multifaceted problems with precision and creativity.

Experience

Over the years, Prof. Yin has held various academic and research positions at prestigious institutions and collaborated with global research teams. His professional experience includes leading national-level projects on multifunctional materials, serving on editorial boards of international journals, and contributing as a reviewer for high-impact publications. With an extensive teaching portfolio, he has mentored graduate students and early-career researchers, equipping them with advanced skills in modeling, simulation, and experimental mechanics. His research group is known for cutting-edge work on bioinspired composites and smart mechanical systems.

Research Interest

Prof. Yin’s research is centered on multifunctional structural materials, especially lattice and honeycomb composites inspired by biological structures. His areas of focus include mechanical metamaterials, energy absorption systems, damage-tolerant designs, and multiscale mechanics. He integrates theoretical modeling with numerical simulation and experimental validation to understand and optimize material behavior under various loading conditions. His work has paved the way for new solutions in aerospace components, vibration damping structures, and lightweight energy devices.

Award

In recognition of his impactful research, Prof. Sha Yin has received numerous academic accolades, including regional innovation awards, national scientific funding, and institutional honors for excellence in research. He has consistently demonstrated leadership in multidisciplinary projects and continues to contribute significantly to the international mechanical engineering and materials science communities. His work has influenced emerging trends in structural energy storage, hybrid material systems, and topological optimization.

Publication

  1. “Mechanical properties of bioinspired hierarchical honeycombs” – Composite Structures, 2020. Cited by 87 articles.
  2. “Topology optimization of multifunctional lattice structures for energy absorption” – Materials & Design, 2019. Cited by 92 articles.
  3. “Design and simulation of 3D printed auxetic materials for structural damping” – Additive Manufacturing, 2021. Cited by 74 articles.
  4. “Multi-layered cellular composites for lightweight impact-resistant systems” – International Journal of Mechanical Sciences, 2022. Cited by 59 articles.
  5. “Bioinspired composite skins with tunable stiffness for aerospace applications” – Journal of Materials Science, 2020. Cited by 66 articles.
  6. “Numerical investigation of honeycomb structures with negative Poisson’s ratio” – Mechanics of Materials, 2021. Cited by 43 articles.
  7. “Experimental and theoretical analysis of functionally graded foams in dynamic loading” – Engineering Structures, 2019. Cited by 51 articles.

Conclusion

Prof. Sha Yin stands as a prominent figure in the field of mechanical engineering and materials design, with a proven track record of pioneering research, academic excellence, and interdisciplinary innovation. His work has significantly contributed to the advancement of bioinspired and multifunctional structures, offering sustainable and efficient engineering solutions. As a forward-thinking scholar and mentor, he continues to influence the next generation of engineers while shaping the future of material design and mechanical systems. His nomination for a prestigious award is both timely and well-deserved, reflecting his dedication, scholarly rigor, and visionary contributions.

Salma AMINALLAH | Composite | Best Researcher Award

Published on by Academic Achievements

Dr. Salma AMINALLAH | Composite | Best Researcher Award

Dr. Salma AMINALLAH | Composite – Researcher at Djillali Liabes University of Sidi Bel Abbes, Algeria

Dr. Salma Aminallah is a dynamic and promising academic in the field of mechanical and materials engineering. Currently affiliated with the Université de Djillali Liabes de Sidi Bel Abbès in Algeria, she has emerged as a researcher with a strong interest in optimizing structural repairs using composite materials. Her research is highly relevant to advanced engineering applications such as aerospace, automotive, and civil infrastructure. Through her early yet impactful contributions to academia and scientific forums, she exemplifies the dedication and vision required of a next-generation engineering leader.

Profile Verified

Scopus

Education

Dr. Aminallah’s academic foundation is built upon a focused and consistent pursuit of mechanical engineering. She began her journey with a Bachelor’s degree in Mechanical Engineering, followed by a Master’s degree specializing in Materials Engineering, both from the Université de Djillali Liabes. Her Master’s thesis focused on the numerical optimization of residual stress distribution caused by shot peening—a key technique in fatigue life enhancement. Most recently, she earned her Doctorate in Mechanical Engineering with specialization in materials, where she developed advanced models and methods for the optimization of composite patch repair in damaged structures.

Experience

In addition to her research work, Dr. Aminallah has cultivated significant teaching experience across a range of undergraduate and graduate courses. She has been responsible for delivering lectures, tutorials, and laboratory sessions in modules such as Thermodynamics, Fluid Mechanics, Metrology, Informatics, and Renewable Energy. Her academic roles demonstrate versatility and a strong commitment to student engagement. She also brings practical proficiency in tools such as Abaqus, MATLAB, and MODDE, which are integral to her computational modeling and experimental design work.

Research Interests

Dr. Aminallah’s research interests focus on materials science, structural mechanics, and numerical optimization. Her primary area of specialization lies in the simulation and repair of composite structures using techniques such as scarf patching and stacking sequence optimization. By applying statistical methodologies like Design of Experiments (DOE), she is able to enhance the mechanical integrity of damaged components. This line of research addresses critical issues in fracture mechanics and structural durability, positioning her work at the intersection of innovation and industry relevance.

Awards and Scientific Recognition

Although still early in her academic career, Dr. Aminallah has already garnered recognition through active participation in prestigious national and international conferences. She has presented her findings at notable events such as the International Conference on Applied Engineering and Natural Sciences and the International Conference on Composite and Advanced Materials. These platforms have allowed her to showcase her innovative research to an international audience and receive constructive feedback from peers and experts in the field.

Selected Publications 📚

Dr. Aminallah has published several impactful papers in peer-reviewed journals and conference proceedings that reflect both depth and diversity in her research:

🔹Optimization of scarf patch stacking sequences using the design of experiments method – Advances in Aircraft and Spacecraft Science (2023) – Cited by 8 articles

🔹 Numerical analysis of composite patch repairs on damaged plates with optimized geometric modifications for improved fracture strength – Mechanics of Advanced Materials and Structures (2025) – Cited by 3 articles

🔹 Optimization of mechanical and geometrical properties of a composite patch adhesive – Presented at ICAENS 2022, Konya, Turkey

🔹 Comparative study between rectangular and star-shaped patches – JEM2-2022, Relizane, Algeria

🔹 Optimization of composite patch staking sequences using DOE – ISIEMS 2022, Oran, Algeria

🔹 The effect of external repair in notched composite laminates (E-Glass/sw905-2) – ICCAR 2024, Konya, Turkey

🔹 Simulation of the repair of composite structures using scarf repair – NCPAC 2025, Laghouat, Algeria

Conclusion

Dr. Salma Aminallah exemplifies the qualities of an innovative and research-driven scholar with a bright future in materials and mechanical engineering. Her strong technical foundation, passion for structural optimization, and growing international profile make her a compelling candidate for the Best Researcher Award. She brings a balance of theoretical depth and applied expertise, and her trajectory suggests continued impact and leadership in her field. Recognizing her at this stage would not only honor her current achievements but also support her growth as a scientific leader dedicated to solving real-world engineering challenges.