Description
Ceramic and Polymer Matrix Composites : Properties, Performance and Applications, Hardcover by Dimitriou, Eros (EDT); Petralia, Marco (EDT), ISBN 1607418967, ISBN-13 9781607418962, Brand New, Free shipping in the US
Polymer Science and Technology Ser.: Ceramic and Polymer Matrix Composites: Properties, Performance and Applications by Marco Petralia (2010, Hardcover)
$ 154.29
Ceramic and Polymer Matrix Composites : Properties, Performance and Applications, Hardcover by Dimitriou, Eros (EDT); Petralia, Marco (EDT), ISBN 1607418967, ISBN-13 9781607418962, Brand New, Free shi...
Specifics
| Author | Marco Petralia |
|---|---|
| Dewey Decimal | 620.1/4 |
| Dewey Edition | 22 |
| Format | Hardcover |
| ISBN-10 | 1607418967 |
| ISBN-13 | 9781607418962 |
| Illustrated | Yes |
| Intended Audience | Scholarly & Professional |
| Item Length | 6.1 in |
| Item Weight | 18.7 Oz |
| Item Width | 9.1 in |
| LC Classification Number | TA418.9.C6C385 2009 |
| LCCN | 2009-044321 |
| Language | English |
| Number of Pages | 364 Pages |
| Publication Name | Ceramic and Polymer Matrix Composites: Properties, Performance and Applications |
| Publication Year | 2010 |
| Publisher | NOVA Science Publishers, Incorporated |
| Series | Polymer Science and Technology Ser. |
| Subject | Textiles & Polymers, Industrial Technology, Materials Science / Ceramics |
| Subject Area | Technology & Engineering |
| Synopsis | In general, the strength of ceramic materials is influenced by the presence of flaws, originating during the material processing and representing fracture origins to be accordingly a reason of material fracture. In this book, fabrication processes of particle reinforced ceramic are introduced, which provide a useful set of variables for model experimental and theoretical studies. Toughening mechanisms of particle dispersion reinforced ceramic matrix composites are also discussed, and the practice of the composites containing the latest research results are introduced. In addition, the authors discuss the application of the contact and four-point bending tests on monolithic ceramic materials at room temperature to determine the strength of ceramic materials. Other chapters in this book examine fibre reinforced plastics, which are used world-wide in various applications. A novel nanofabrication strategy to develop high dielectric constant nanocomposite is also introduced, as well as a novel approach for systematic investigation of polymer nanocomposites., In this text, fabrication processes of particle reinforced ceramic are introduced, which provide a useful set of variables for model experimental and theoretical studies. Toughening mechanisms of particle dispersion reinforced ceramic matrix composites are also discussed. |
| Table Of Content | Preface; Surface Modification of Ultra High Modulus Polymeric Fibers: Effects on Interfacial Adhesion & Mechanical Properties with Epoxy Resin Composites; Manufacturing & Features of Acoustically Optimized Natural Fibre Reinforced Plastics; Effects of Microstructure on Residual Stresses in DSE Al2O3/YAG Ceramic Composite by Experimental & Numerical Investigations; Introduction of Particle Dispersion Reinforced Ceramic Matrix Composites; A Novel Strategy for Developing Polymer Nanocomposite with High Dielectric Constant; Polymer-Clay Nanocomposites: From Micro-to Advanced-Compounding; Contact Strength of Ceramic Materials; New Analytical Model of Thermal Stresses & Analytical Fracture Mechanics in Two-Component Materials: Application to Two-Component Ceramics; Modeling of Thermal Transport in Ceramics Matrix Composites; Damage Reduction Methods in Drilling Polymeric Matrix Composites; Index. |
| Type | Textbook |
| brand | NOVA Science Publishers, Incorporated |
| gtin13 | 9781607418962 |