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Characterization of Nanocomposites -

Characterization of Nanocomposites

Technology and Industrial Applications

Frank Abdi, Mohit Garg (Herausgeber)

Buch | Hardcover
508 Seiten
2017
Pan Stanford Publishing Pte Ltd (Verlag)
978-981-4669-02-3 (ISBN)
CHF 336,90 inkl. MwSt
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These days, advanced multiscale hybrid materials are being produced in the industry, studied by universities, and used in several applications. Unlike for macromaterials, it is difficult to obtain the physical, mechanical, electrical, and thermal properties of nanomaterials because of the scale. Designers, however, must have knowledge of these properties to perform any finite element analysis or durability and damage tolerance analysis. This is the book that brings this knowledge within easy reach.

What makes the book unique is the fact that its approach that combines multiscale multiphysics and statistical analysis with multiscale progressive failure analysis. The combination gives a very powerful tool for minimizing tests, improving accuracy, and understanding the effect of the statistical nature of materials, in addition to the mechanics of advanced multiscale materials, all the way to failure. The book focuses on obtaining valid mechanical properties of nanocomposite materials by accurate prediction and observed physical tests, as well as by evaluation of test anomalies of advanced multiscale nanocomposites containing nanoparticles of different shapes, such as chopped fiber, spherical, and platelet, in polymeric, ceramic, and metallic materials. The prediction capability covers delamination, fracture toughness, impact resistance, conductivity, and fire resistance of nanocomposites. The methodology employs a high-fidelity procedure backed with comparison of predictions with test data for various types of static, fatigue, dynamic, and crack growth problems. Using the proposed approach, a good correlation between the simulation and experimental data is established.

Frank Abdi is the chief scientist of AlphaSTAR Corporation. He has over 35 years’ experience in computer-based modeling and software development for a range of applications associated with advanced composite materials and structures, durability and damage tolerance, and aircraft certification. Before founding ASC, he worked at Boeing/Rockwell Aerospace advanced program. He has published more than 200 journal articles and conference papers. Dr. Abdi received a BS and MS in mechanical engineering from the University of Michigan (1974-1975) and a PhD in mechanical engineering from the University of Southern California (1980). He currently serves as adjunct professor at UCLA and as visiting professor at Imperial College London. He is the recipient of several awards, including NASA Software of the Year (1999), R&D 100 (2000, 2015), US Senate Tibbets Award (2001), and NASA Columbia Accident Investigation Award (2003). Mohit Garg is a material and structural research engineer at AlphaSTAR Corporation. His research interests are focused mainly on modeling of thermosets, thermoplastics, and nano-, micro-, and macro-level mechanics, including the theoretical background of continuum mechanics. He has to his credit several publications on the failure assessment of composite material systems of various configurations, the material systems ranging from nanoparticles, polymers, and metals to two- and three-dimensional composite and hybrid systems. He is equally capable of performing and improving fracture mechanics–based analyses subjected to static, fatigue, and impact-type problems. Garg received his BSc in aerospace engineering from the University of Texas at Austin (2003) and his MSc in mechanical engineering from Massachusetts Institute of Technology (2005). His research projects have been accepted recently for publication in well-known journals.

Nanostructure Bulk Property Predictions Using Molecular Mechanics. Obtaining Material Properties from the Bottom-Up Approach. Fiber–Matrix Interphase Effects on Damage Progression in Composite Structures. Composite Nanomechanics: A Mechanistic Properties Prediction. Analyzing Interlaminar Shear Strength of Multiscale Composites via Combined Finite Element and Progressive Failure Analysis Approach. Validation for Multiscale Composites: Glass/Epoxy/Silica Nanoparticles. Influence of Nanoparticles and Effect of Defects on Mode I and II Fracture Toughness and Impact Resistance. Prediction/Verification of Composite Electrical Properties and Nano-Insertion Improvement. Polymer Nanocomposites as Ablative Materials: A Comprehensive Review. Antifriction Nanocomposites Based on the Chemically Modified Ultra-High Molecular Weight Polyethylene. Modeling of Mechanical Properties in Nanoparticle Reinforced Polymers Using Atomistic Simulations. Prediction of Effect of Waviness, Interfacial Bonding, and Agglomeration of Carbon Nanotubes on Their Polymer Composites. Dispersion of Nanoparticles in Polymers. Modeling of the Mechanical Properties of Nanoparticle/Polymer Composites. Predicting the Elastic Properties of CNF/Thermoset Polymer Composites Considering the Effect of Interphase and Fiber Waviness. Part 1: Multiscale Nanocomposite Fatigue Life Determination. Part 2: Multiscale Nanocomposite Fatigue Life Determination. Stress Analysis and Fracture in Nanolaminate Composites. Probabilistic Simulation for Nanocomposite Fracture. Material Characterization and Microstructural Assessment: Fatigue Curve S-N Development Using Fracture Mechanics.

Erscheint lt. Verlag 3.4.2017
Zusatzinfo 61 Tables, black and white; 25 Illustrations, color; 274 Illustrations, black and white
Verlagsort Singapore
Sprache englisch
Maße 152 x 229 mm
Gewicht 942 g
Themenwelt Naturwissenschaften Chemie Physikalische Chemie
Technik Maschinenbau
ISBN-10 981-4669-02-4 / 9814669024
ISBN-13 978-981-4669-02-3 / 9789814669023
Zustand Neuware
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