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Assist Prof Dr.Hussein Dalfi | Materials | Best Paper Award
Assist Prof Dr. Hussein Dalfi, University of Wasit, Iraq
Assist. Prof. Dr. Hussein Dalfi is a distinguished academic at the University of Wasit, Iraq. With a focus on [insert field of expertise], Dr. Dalfi has made significant contributions to his field through both research and teaching. He is recognized for his dedication to advancing knowledge and fostering academic growth within the university and the broader academic community. Dr. Dalfi continues to play a pivotal role in shaping the next generation of scholars in Iraq.
Summary:
Assist. Prof. Dr. Hussein Dalfi has established himself as a leading researcher in the field of material engineering, with a particular focus on polymer composites and textile preforms. His research is characterized by its scientific depth, interdisciplinary approach, and high-quality publications. Dr. Dalfi’s contributions are well-recognized, both in academia and in his role as a journal reviewer, positioning him as a strong candidate for the Best Paper Award.
Professional Profiles:
🎓 Education :
Dr. Dalfi holds a Ph.D. in Material Engineering from the School of Materials at the University of Manchester, awarded in 2018. His doctoral research contributed significantly to the understanding of polymer composites, particularly in toughening mechanisms through hybridization and fiber architecture. Prior to his Ph.D., Dr. Dalfi completed his B.Sc. and M.Sc. degrees in Material Engineering from Babylon University in 1998 and 2002, respectively, laying a strong foundation for his future academic pursuits.
🏢 Experience:
Dr. Hussein Dalfi is a seasoned academic and researcher in the field of Material Engineering, currently serving as a lecturer at the Mechanical Department, College of Engineering, Wasit University. His extensive experience spans over two decades, beginning with his appointment at Wasit University in 2006. Dr. Dalfi’s academic journey commenced with a B.Sc. and M.Sc. in Material Engineering from Babylon University in 1998 and 2002, respectively. He later pursued a Ph.D. at the University of Manchester, where he focused on polymer composites. Dr. Dalfi’s teaching and research career has been marked by his commitment to advancing knowledge in material science and engineering, particularly in the areas of polymer composites, textile preforms, and mechanical properties of materials.
🛠️ Skills:
Dr. Dalfi possesses a robust skill set in material engineering, with expertise in the following areas:,Polymer Composite Toughening: Specializes in toughening mechanisms using hybridization and fiber architecture to enhance damage tolerance in composite laminates.,Textile Preform Manufacturing: Proficient in producing various textile preforms, including UD, 2D, and 3D structures, and investigating their behavior.,Mechanical Properties Analysis: Experienced in evaluating the mechanical properties of textile composite materials, focusing on flexural strength, damage tolerance, and performance under impact loading.,Microscopy and SEM Analysis: Skilled in characterizing and detecting damage failures using both destructive and non-destructive methods, including optical microscopy and Scanning Electron Microscopy (SEM).,Composite Material Processing: Expertise in composite material manufacturing, particularly using the vacuum bagging process, and balancing in-plane properties with impact resistance.
🏆 Awards:
Dr. Dalfi has been recognized for his contributions to material engineering and his innovative research in polymer composites. Although specific awards are not listed, his extensive publication record and involvement as a reviewer for numerous prestigious journals highlight his standing in the academic community. Dr. Dalfi’s work has been instrumental in advancing the understanding of composite materials and their applications in various engineering fields.
🔬 Research Focus:
Dr. Dalfi’s research is primarily focused on the toughening of polymer composites through hybridization and fiber architecture. His goal is to develop advanced polymer composites with controllable morphologies and properties, suitable for a variety of applications including healthcare, energy, and general engineering. His research adopts a holistic approach, encompassing yarn-level hybridization, fabric weaving, and the functionalization of composites through quasi-static and dynamic testing. Dr. Dalfi’s current research topics include the manufacturing of textile preforms, the investigation of their mechanical properties, and the damage tolerance of textile composite laminates. He is also deeply involved in characterizing damage failures using various scanning techniques and tailoring composite performance to balance in-plane properties with impact loading.
Conclusion:
Given his extensive research contributions, innovative approach to polymer composite toughening, and active role in the scientific community, Assist. Prof. Dr. Hussein Dalfi is well-suited for the Best Paper Award. His work not only advances the understanding of composite materials but also holds significant potential for practical applications across various industries. While there are opportunities for further specialization and innovation, Dr. Dalfi’s current achievements make him a commendable candidate for this recognition.
Publications :
- Intra-laminar toughening mechanisms to enhance impact damage tolerance of 2D woven composite laminates via yarn-level fiber hybridization and fiber architecture
- Source: Polymer Composites
- Year: 2019
- Authors: H. Dalfi, K.B. Katnam, P. Potluri
- Towards balancing in-plane mechanical properties and impact damage tolerance of composite laminates using quasi-UD woven fabrics with hybrid warp yarns
- Source: Composite Structures
- Year: 2019
- Authors: K.B. Katnam, H. Dalfi, P. Potluri
- Investigation of the impact and post-impact behaviour of glass and glass/natural fibre hybrid composites made with various stacking sequences: Experimental and theoretical analysis
- Source: Journal of Industrial Textiles
- Year: 2022
- Authors: E. Selver, H. Dalfi, Z. Yousaf
- The role of hybridisation and fibre architecture on the post-impact flexural behaviour of composite laminates
- Source: Journal of Composite Materials
- Year: 2021
- Authors: H. Dalfi, K. Babu-Katnum, P. Potluri, E. Selver
- The influence of the inter-ply hybridisation on the mechanical performance of composite laminates: Experimental and numerical analysis
- Source: Science Progress
- Year: 2021
- Authors: H. Dalfi, A.J. Al-Obaidi, H. Razaq
- Effect of twist level on the mechanical performance of S-glass yarns and non-crimp cross-ply composites
- Source: Journal of Industrial Textiles
- Year: 2021
- Authors: H.K. Dalfi, M. Tausif, Z. Yousaf
- Improving the mechanical performance and impact damage tolerance of glass composite laminates via multi-scales of hybridisation
- Source: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
- Year: 2022
- Authors: H. Dalfi
- Effect of intra-yarn hybridisation and fibre architecture on the impact response of composite laminates: Experimental and numerical analysis
- Source: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science
- Year: 2022
- Authors: H. Dalfi
- Influence of yarn hybridisation and fibre architecture on the compaction response of woven fabric preforms during composite manufacturing
- Source: Journal of Industrial Textiles
- Year: 2022
- Authors: H.K. Dalfi, Z. Yousaf, E. Selver, P. Potluri
- Improving the impact resistance and damage tolerance of fibre reinforced composites: A review
- Source: Journal of Composite Materials
- Year: 2023
- Authors: H.K. Dalfi, K. Jan, Z. Yousaf, M. Peerzada
- Optimization of the mechanical performance and damage failure characteristics of laminated composites based on fiber orientation
- Source: Frontiers of Structural and Civil Engineering
- Year: 2023
- Authors: H. Dalfi, A. Al-Obaidi, A. Tariq, H. Razzaq, R. Rafiee
- Enhancing the mechanical performance of notched glass/epoxy composite laminates via hybridisation with thermoplastic fibres
- Source: Journal of Composite Materials
- Year: 2023
- Authors: E. Selver, H.K. Dalfi, P. Potluri
- Original Manuscript SCIENCE PROGRESS
- Source: Science Progress
- Year: 2021
- Authors: H. Dalfi, A.J. Al-Obaidi, H. Razaq