Reinforced Polymer Matrix Syntactic Foams - Gupta, Nikhil;Pinisetty, Dinesh;Shunmugasamy, Vasanth C.
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Reinforced Syntactic Foams: Effect of Nano and Micro-Scale Reinforcement examines the fabrication processes, mechanism of reinforcement, and structure-property correlations of reinforced syntactic foams. The authors present the state of the art in this field, compare the properties of various types of syntactic foam systems comprising different matrix, hollow particle, and reinforcement materials. The book further identifies theories useful in predicting the properties of reinforced syntactic foams and conducting parametric studies to understand the possibility for tailoring their properties.

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Produktbeschreibung
Reinforced Syntactic Foams: Effect of Nano and Micro-Scale Reinforcement examines the fabrication processes, mechanism of reinforcement, and structure-property correlations of reinforced syntactic foams. The authors present the state of the art in this field, compare the properties of various types of syntactic foam systems comprising different matrix, hollow particle, and reinforcement materials. The book further identifies theories useful in predicting the properties of reinforced syntactic foams and conducting parametric studies to understand the possibility for tailoring their properties.
Autorenporträt
Dr. Nikhil Gupta is a Professor in the Mechanical and Aerospace Engineering Department at the New York University Tandon School of Engineering. He is also affiliated with the NYU Center for Cybersecurity. His research interests include developing lightweight materials, additive manufacturing, and materials characterization methods. He has served as the membership secretary of the American Society for Composites and Chair of the Composite Materials Committee of The Minerals, Metals and Materials Society (TMS). He is an elected fellow of ASM International and the American Society for Composites and senior member of IEEE and National Academy of Inventors. Caleb Beckwith is a Ph.D. candidate in Mechanical and Aerospace Engineering at New York University, specializing in understanding aperiodic metamaterials and their design for additive manufacturing. His research focuses on the design of and characterization of the mechanical behavior of quasi-crystalline lattices such as 2D Penrose tiles and 3D quasicrystals to create porous structures with tailored properties. He works extensively with SLA printing and developing syntactic foams in thermosetting polymers, aiming to enhance ductility for novel applications and compositions for metamaterials. Caleb also integrates non-destructive testing (NDT) to evaluate these metamaterials, advancing the characterization of complex metamaterials without compromising their structural integrity.