This book provides an in-depth exploration of the transformative role of smart nanomaterials in biomedical science, with a specific focus on their mechanical properties, characterization techniques, and functional performance. It examines critical aspects such as mechanical testing, tribological behavior, phase transformations, bioactivity, coating technologies, thermal properties, and corrosion resistance. These areas are essential for understanding nanomaterials' structural integrity, durability, and adaptability in biomedical applications. The book offers detailed insights into how these properties and behaviors contribute to solving challenges in developing advanced biomaterials for diagnostics, implants, drug delivery systems, and tissue engineering. It also highlights the significance of coatings and corrosion-resistant materials in extending the longevity and functionality of medical devices and implants in diverse physiological environments. Targeting healthcare practitioners, researchers, and graduate students, this comprehensive reference aims to bridge knowledge gaps in material characterization and inspire innovative approaches to designing nanomaterials that meet clinical and engineering requirements. By integrating interdisciplinary perspectives, the book emphasizes the importance of understanding nanomaterials' mechanical and functional performance to advance patient-centered medical applications and drive innovation in the rapidly evolving field of biomaterial science.
Harnessing the Potential of Smart Nanomaterials Addressing Healthcare
Challenges through Advanced Mechanical Properties.- Exploring the Mechanical
Behavior of Nanomaterials Elasticity Strength and Deformation for Biomedical
Applications.- Tribological Innovations in Nanomaterials Friction Wear and
Lubrication for Enhanced Biomedical Performance. Understanding Phase
Transformations in Nanomaterials Thermal Dynamics and Shape Memory Alloys in
Medicine.- Advancing Biomedical Science Bioactive Nanomaterials and Their
Interactions with Living Systems.
Dr. Safaa Al-Humairi is a distinguished academic and researcher specializing in Mechanical Engineering, Biomaterials, Mechatronics, Biomechanics, and Robotics. He earned his Ph.D. in Mechanical/Biomaterials Engineering from Universiti Teknologi Malaysia (UTM), where he also completed his postdoctoral research. Currently, he serves as an Associate Professor at Management and Science University (MSU) in Malaysia and holds the position of Deputy Dean for Research, International, and Industry Relations. Dr. Al-Humairis research focuses on the development of functional biomaterials for experimental and simulation-based modulation, a critical area in modern biomedical engineering. With over 100 published research articles, his work demonstrates a strong interdisciplinary approach, particularly in the production of bioactive substitutes designed to enhance the efficiency and functionality of biomaterials.
Dr. Abdollah Bahador is a leading expert in materials engineering, specializing in advanced materials such as titanium and shape memory alloys. He holds a Ph.D. in mechanical engineering from Universiti Teknologi Malaysia, with research focusing on laser welding and powder metallurgy. He serves as a principal researcher at the Materials Processing Institute, UK, following academic roles at Universiti Teknologi Malaysia and Osaka University, Japan. Dr. Bahador's work spans additive manufacturing, tribology, corrosion, and thermal properties of materials, with applications in biomedical and industrial fields.
Dr. Nida Iqbal is an associate professor in the Bio-Medical Engineering Department at the University of Engineering and Technology (UET), Lahore, Pakistan. With a Ph.D. in biomedical engineering from Universiti Teknologi Malaysia, she specializes in biomaterials, bioceramics, tissue engineering scaffolds, and implant coatings. Her research focuses on innovative biomedical solutions, including biodegradable metals, and nanoparticle synthesis.
Dr. Erkan Koē is an accomplished associate professor at Karabuk University, specializing in biomedical engineering in the faculty of engineering. His research interests center on biomaterials, with significant contributions to understanding novel materials' mechanical, tribological, and biological properties. His works are well-published, featuring articles in high-impact journals.
Dr. Ameer is a distinguished academic and researcher in the field of biomedical engineering, currently serving as a lecturer in the Department of Biomedical Engineering at Al-Mustaqabal University, Iraq. He earned his Ph.D. in biomedical engineering from Karabuk University, Turkey, specializing in biomaterials and dental materials engineering. He continues to advance the field of biomedical engineering by focusing on interdisciplinary research that bridges material science and clinical applications, with a particular emphasis on sustainable and biocompatible materials.
