In the evolving market of product design, the optimization of surface patterns is a crucial factor in determining the functionality of future products. However, despite numerous surface designs introduced in recent years, the field remains significantly underdeveloped. The absence of systematic and well-defined methodologies for generating deterministic topologies has turned the design of surfaces into more of an art than a precise science. This deficiency is further exacerbated by a dominant design culture that attempts to tame nature rather than establish harmonious coexistence within the Man Engineered Systems Domain (MESD). The challenge lies in the lack of a holistic surface design methodology that can merge function, form, and topography to produce optimized constructs capable of efficient operation within an envelope of constraints. Bio-Locomotion Interfaces and Biologization Potential in 4-D Printing is a comprehensive solution to the challenges faced in biomimetic surface design. This groundbreaking book recognizes the underdeveloped state of the field and proposes a trans-disciplinary approach that seamlessly integrates engineering, physics, and biology. It addresses the need for a new surface design methodology, emphasizing the importance of generating bio-inspired functional surfaces in MESD. Unlike existing approaches that rely on mere bio-mimicry, this book delves into the core of design generation, emphasizing the implementation of design rules rather than the replication of natural constructions. It is the ultimate guide for scholars seeking to bridge the gap between biology and engineering and acquire the methodologies needed to deduce design rules and construct deterministic surfaces inspired by bio-analogues. The book systematically navigates through the fundamentals of surface metrology, the elements of surface design on natural surfaces, and the implications for surface customization. Each chapter is meticulously crafted to provide scholars with a solid foundation, covering topics from thermodynamics and friction to the customization of surfaces for friction and the potential of bio-inspiration in additive manufacturing. Bio-Locomotion Interfaces and Biologization Potential in 4-D Printing is not just a book; it is a roadmap for academic scholars, offering a transformative journey where art meets science, and nature harmoniously coexists with engineering ingenuity.
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Produktdetaljer

ISBN
9781668456392
Publisert
2024-08-29
Utgiver
Vendor
Engineering Science Reference
Høyde
279 mm
Bredde
216 mm
Aldersnivå
U, P, 05, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
612

Om bidragsyterne

|Hisham Abdel-Aal - Editor|Prof. Hisham A Abdel-Aal , obtained his first degree in Mechanical Engineering from Alexandria University, Alexandria Egypt. He received his Doctoral degree in Precision Engineering from the University of North Carolina in Charlotte in 1998. Since his graduation he has been active in research and teaching in the US and abroad. He occupied several invited positions in Europe, South America and Asia. Including a Research Professorship at the Laboratoire de Materiux et Procedes at Arts et Métiers ParisTech in France where he founded the first research group for Bio-inspired sustainable surfaces for manufacturing. Prof. Abdel-Aal, has lectured extensively on the subjects of tribology, Bio-inspired surfaces, and thermodynamics of wear, and is the author or co-author of over 150 research articles in books, journals, and conference proceedings the subjects of Tribology, surface engineering, Bio-inspired Surface engineering, and bio-mimetics.