Ceramic Matrix Composites: Materials, Modeling and Technology - Hardcover

Über die Autorin bzw. den Autor

Dr. Narottam P. Bansal is a Senior Research Scientist in the Ceramic and Polymer Composites Branch, Materials and Structures Division, at NASA Glenn Research Center. Previously, he was a post-doctoral fellow at the University of Alberta in Edmonton, Alberta, Canada and research associate at Rensselaer Polytechnic Institute in Troy, New York. He is the author or editor of six books, 37 conference proceedings, six invited chapters, and three review articles. Dr. Bansal has to date published over 230 papers, including more than 100 peer-reviewed journal papers on glass, ceramics, and composites and holds seven US patents.

Dr. Jacques Lamon is Director of Research at CNRS (National Centre of Scientific Research). He recently joined the Laboratory for Mechanics and Technology (LMT) at Ecole Normale Supérieure Cachan (Paris, France). Before that he was Group Leader at LCTS (Laboratory for Thermostructural Composites, University of Bordeaux/CNRS, France), and Professor at the University of Bordeaux, France. He earned his PhD in materials science and engineering in 1978 from Ecole Nationale Supérieure des Mines. He is the author of one book, twelve invited chapters, fourteen conference proceedings, and three journal special issues. He has written over 200 articles on ceramics and ceramic matrix composites.

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Presents state-of-the-art and comprehensive information on various aspects of ceramic matrix composites

Ceramic composites are considered as enabling technology for advanced aeropropulsion, space propulsion, space power, aerospace vehicles, space structures, ground transportation, as well as nuclear and chemical industries. In the last thirty years, tremendous progress has been made in the development and advancement of ceramic matrix composites (CMC). Ceramic Matrix Composites: Materials, Modeling and Technologyprovides a coherent overview of the progression and guides readers through the recent developments on various aspects of CMCs, including:

• Behavior and properties of constituents: fibers, fiber/matrix interfaces and interphases, and preforms
• Processing, properties and technology of continuous fiber-reinforced C/C, C/SiC, C/C-SiC, SiC/SiC, oxide/oxide, and ultra-high temperature ceramic composites as well as applications of CMCs in key sectors including aeronautics, space, and nuclear industries
• Environmental effects, including effects of steam, on oxide/oxide composites; stress-oxidation degradation in SiC-based composites; thermomechanical ablation; radiation effects on SiC-based and carbon fiber composites; foreign object damage
• Protective coatings against oxidation and surface recession of CMCs
• Multiscale modeling of material behavior and computational simulation of life of engineering structures
• Integration and joining of CMCs and mechanical testing of joined structures
• Acoustic emission based detection and quantification of damage with a view to life-prediction

With chapters contributed by internationally recognized experts in the field of CMCs and its coverage of the state-of-the art information, this book is recommended for scientists, engineers, technologists, and researchers in industry, research laboratories and academia. Students in materials science, ceramics, structural materials, mechanical, civil and biomedical engineering will find it an advantageous supplement to their studies.

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Presents state-of-the-art and comprehensive information on various aspects of ceramic matrix composites

Ceramic composites are considered as enabling technology for advanced aeropropulsion, space propulsion, space power, aerospace vehicles, space structures, ground transportation, as well as nuclear and chemical industries. In the last thirty years, tremendous progress has been made in the development and advancement of ceramic matrix composites (CMC). Ceramic Matrix Composites: Materials, Modeling and Technologyprovides a coherent overview of the progression and guides readers through the recent developments on various aspects of CMCs, including:

• Behavior and properties of constituents: fibers, fiber/matrix interfaces and interphases, and preforms
• Processing, properties and technology of continuous fiber-reinforced C/C, C/SiC, C/C-SiC, SiC/SiC, oxide/oxide, and ultra-high temperature ceramic composites as well as applications of CMCs in key sectors including aeronautics, space, and nuclear industries
• Environmental effects, including effects of steam, on oxide/oxide composites; stress-oxidation degradation in SiC-based composites; thermomechanical ablation; radiation effects on SiC-based and carbon fiber composites; foreign object damage
• Protective coatings against oxidation and surface recession of CMCs
• Multiscale modeling of material behavior and computational simulation of life of engineering structures
• Integration and joining of CMCs and mechanical testing of joined structures
• Acoustic emission based detection and quantification of damage with a view to life-prediction

With chapters contributed by internationally recognized experts in the field of CMCs and its coverage of the state-of-the art information, this book is recommended for scientists, engineers, technologists, and researchers in industry, research laboratories and academia. Students in materials science, ceramics, structural materials, mechanical, civil and biomedical engineering will find it an advantageous supplement to their studies.