Mr. Md Atiqur Rahman | Bio Composite | Best Researcher Award

University of Bolton, United Kingdom

MD Atiqur Rahman is an accomplished academic and aerospace engineering professional with over nine years of experience in aeronautical education and research. Currently serving as a Lecturer at Blackpool & The Fylde College and a Ph.D. researcher at the University of Bolton, UK, he has demonstrated unwavering commitment to teaching excellence and research innovation. His expertise encompasses aerodynamics, propulsion systems, materials science, and sustainable bio-composites for aerospace and automotive applications. Rahman is widely respected for his ability to design effective learning materials and assessments aligned with institutional and employer standards, contributing significantly to student success and institutional reputation. His teaching portfolio spans several institutions in both the UK and Bangladesh, covering FE and HE programs including BTEC Pearson, City & Guilds, and EAL qualifications. Beyond teaching, he serves as a Standard Verifier for BTEC Pearson and an academic board member of a peer-reviewed journal. His research has produced six publications on alkali-treated Borassus husk fiber bio-composites, with ongoing contributions to next-generation sustainable materials. Recognized for excellence in both teaching and research, including a “Best Lecturer” award, Rahman is an adaptable team player whose professional journey reflects dedication, leadership, and a strong commitment to innovation in engineering education and sustainability.

Professional Profile

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Education

MD Atiqur Rahman has pursued a progressive and research-intensive academic journey in the field of aerospace and mechanical engineering. He is currently completing a Doctor of Philosophy (Ph.D.) by Thesis at the University of Bolton in the United Kingdom, where his research focuses on sustainable natural fiber-based bio-composites for aerospace and automotive applications. His doctoral work builds upon his Master of Philosophy (MPhil) in Mechanical Engineering, also awarded by the University of Bolton, which he pursued from July 2022 to November 2024. His MPhil thesis laid the groundwork for advanced research into the thermal and mechanical behavior of treated Borassus husk fibers. Prior to his postgraduate research, Rahman earned a Bachelor of Engineering (Honours) degree in Aerospace Engineering from the University of Hertfordshire, UK, in 2012. His undergraduate training provided a strong foundation in fluid mechanics, propulsion systems, aircraft structures, and engineering design. Throughout his academic progression, he has actively combined theoretical learning with hands-on research in materials science and aerodynamics. His educational achievements are complemented by his proficiency in software such as SolidWorks, Fusion 360, ANSYS, and MATLAB, enabling him to bridge design and analysis with real-world engineering problems. His academic trajectory reflects both depth in research and excellence in instruction.

Professional Experience

MD Atiqur Rahman’s professional experience spans a dynamic mix of teaching, curriculum development, academic leadership, and engineering research. He currently serves as an Engineering Lecturer at Blackpool & The Fylde College, where he designs and delivers course materials, assessments, and lab experiences aligned with Lancaster University and industry expectations. In this role, he teaches and manages engineering students and apprentices up to Level 6, and supports module leaders and academic staff with standard verification and quality assurance. Previously, Rahman taught Aeronautical Engineering at Preston College, where he significantly enhanced student engagement and promoted course offerings through open days. At the University of Bolton, he served as a Mechanical Engineering Lecturer on a variable hours basis, contributing to module delivery, exam invigilation, and hands-on student support. In Bangladesh, he held multiple teaching and verification roles at Cambrian International College of Aviation and United College of Aviation, Science & Management, where he led BTEC Pearson programs and staff training. His leadership in curriculum design and internal quality assurance earned institutional accolades, including the 2022 “Best Lecturer” award. With a student-centric approach, Rahman has consistently demonstrated excellence in academic delivery, program development, and mentoring across both further and higher education sectors.

Research Interest

MD Atiqur Rahman’s research interests lie at the intersection of sustainable materials engineering, aerospace applications, and composite innovation. His primary focus is on the development and characterization of natural fiber-based bio-composites, particularly from Borassus flabellifer husks, aimed at replacing synthetic materials in aerospace and automotive sectors. This interest stems from a growing global need for environmentally friendly materials with high performance, low cost, and reduced carbon footprints. His doctoral research investigates the mechanical, thermal, morphological, and chemical properties of alkali-treated natural fibers reinforced in epoxy matrices, targeting applications in high-stress environments. His published studies explore dynamic mechanical analysis, outgassing behaviors, and thermal resistance, contributing valuable insights to materials science. Rahman is also deeply engaged in understanding aerodynamic behavior under hypersonic conditions, fluid dynamics, and propulsion system integration. Additionally, he is interested in advanced testing methodologies, simulation through ANSYS and MATLAB, and optimization of composite structures. His interdisciplinary approach bridges the gap between theoretical modeling and experimental validation, with a long-term goal of enabling greener, lighter, and stronger engineering solutions. Through conferences and journal board memberships, he actively collaborates across institutions and disciplines to push the boundaries of sustainable aerospace engineering.

Research Skills

MD Atiqur Rahman possesses a robust suite of research skills encompassing experimental design, advanced material testing, finite element analysis, and composite fabrication. His research expertise is rooted in his doctoral investigations into Borassus husk fiber-reinforced epoxy composites, where he has performed extensive testing of thermal, chemical, and mechanical properties. He is proficient with equipment such as TGA, DSC, DMA, and Instron tensile testing machines, enabling accurate measurement of structural behavior under diverse conditions. His familiarity with FTIR spectroscopy, pycnometry, and composite lay-up techniques ensures hands-on competence in both qualitative and quantitative analysis. In the domain of computational modeling, Rahman uses SolidWorks and Fusion 360 for CAD, and ANSYS for structural and fluid simulations, applying these tools for design validation and performance prediction. He also uses MATLAB for simulation and mathematical modeling. His academic training in structural mechanics, propulsion systems, and aerodynamic testing—complemented by experience using wind tunnels—enhances his ability to evaluate complex engineering systems. In addition, Rahman has strong data analysis and academic writing skills, demonstrated by his peer-reviewed publications. His holistic research capabilities position him as a capable innovator in sustainable aerospace and mechanical systems.

Awards and Honors

MD Atiqur Rahman has received numerous accolades throughout his academic and professional career, underscoring his excellence in both teaching and research. Notably, he was honored as the “Best Lecturer” in 2022 at Cambrian International College of Aviation in Bangladesh, a testament to his exceptional instructional capabilities, curriculum leadership, and student-centered approach. Additionally, one of his students was awarded the prestigious “BTEC Engineering Learner of the Year 2021 Bronze Award,” reflecting his ability to inspire and guide learners to achieve academic distinction. Rahman was recently appointed as a Standard Verifier by BTEC Pearson, UK—an endorsement of his academic integrity, subject-matter expertise, and commitment to quality assurance in engineering education. His research excellence is reflected in six peer-reviewed publications on novel bio-composite materials, with additional articles under review. Rahman has also been invited to participate in high-profile conferences and seminars, including events hosted by the Royal Aeronautical Society and Government Education bodies, addressing cutting-edge topics such as hypersonic flight and BAME student outcomes. His membership in esteemed organizations like the Royal Aeronautical Society and the Institution of Structural Engineers further attests to his recognized standing in the academic and engineering communities.

Conclusion

In conclusion, MD Atiqur Rahman exemplifies a modern engineering educator and researcher who seamlessly blends academic rigor with practical innovation. With a career spanning over nine years, he has cultivated deep expertise in aerospace systems, composite materials, and engineering education, making significant contributions across institutions in the UK and Bangladesh. His work stands out for its focus on sustainability, demonstrated by his pioneering research on Borassus husk-based bio-composites aimed at advancing green aerospace and automotive technologies. Rahman’s dedication to student success, as reflected in his teaching roles, curriculum leadership, and institutional recognition, speaks to his impact as an educator. His involvement with professional bodies, participation in high-level conferences, and ongoing publication record further underscore his commitment to continuous learning and scholarly excellence. A dynamic communicator, skilled researcher, and effective mentor, Rahman is poised to make continued contributions to engineering education and sustainable innovation. His ability to bridge theoretical concepts with real-world applications—both in the classroom and the lab—positions him as a transformative force in the evolving field of aerospace and mechanical engineering. His journey reflects perseverance, passion, and a vision for engineering that is both advanced and environmentally conscious

Publications Top Notes

1. Title: Palmyra Palm Shell (Borassus flabellifer) Properties Part 1: Insights Into Its Physical and Chemical Properties
   Authors: MA Rahman, M Ndiaye, B Weclawski
   Year: 2025
   Citations: 9

2. Title: Palmyra Palm Shell (Borassus flabellifer) Properties Part 2: Insights Into Its Thermal and Mechanical Properties
   Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
   Year: 2025
   Citations: 8

3. Title: Palmyra Palm Shell (Borassus flabellifer) Properties Part 3: Insights Into Its Morphological, Chemical, and Thermal Properties After Alkali Treatment
   Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
   Year: 2025
   Citations: 7

4. Title: Dynamic Mechanical Analysis of Borassus Husk Fiber Reinforced Epoxy: Evaluating Suitability for Advanced Aerospace and Automotive Applications
   Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
   Year: 2025
   Citations: 4

5. Title: Optimizing Borassus Husk Fibre/Epoxy Composites: A Study on Physical, Thermal, Flexural and Dynamic Mechanical Performance
   Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
   Year: 2025
   Citations: 3

6. Title: Next-Generation Bio-Composites: Alkali-Treated Borassus Husk Fiber for Structural and Thermal Efficiency
   Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
   Year: 2025

7. Title: Enhancing Thermal and Viscoelastic Properties of Alkali-treated Borassus Husk Fibre Reinforced High-heat Resistant Epoxy Composites
   Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
   Year: 2025

8. Title: Alkali-treated Borassus Husk Fibre Reinforced High-heat Resistant Epoxy Composites: Insights into Their Thermal, Dynamic Mechanical and Outgassing Properties
   Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
   Year: 2025