Advanced Processing and Manufacturing Technologiesfor Structural and Multifunctional Materials VI. Volume 33, Issue 8. Ceramic Engineering and Science Proceedings

  • ID: 2785541
  • Book
  • 182 Pages
  • John Wiley and Sons Ltd
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Sets forth new processing and manufacturing technologies for the next generation of ceramics

The 6th International Symposium on Advanced Processing and Manufacturing Technologies for Structural and Multifunctional Materials and Systems was held in January 2012 during the 36th International Conference and Exposition on Advanced Ceramics and Composites in Daytona Beach, Florida. This symposium examined progress resulting from the research and development of advanced processing and manufacturing technologies for a wide variety of non–oxide and oxide–based structural ceramics, particulate and fiber–reinforced composites, and multifunctional materials.

Sixty–eight papers, including invited talks, oral presentations, and posters, were presented by researchers from around the world. This issue features seventeen of those papers, representing some of the most important developments in processing and manufacturing technologies, including:

  • Green manufacturing
  • Smart processing
  • Advanced composite manufacturing
  • Rapid processing
  • Joining, machining, and net shape–forming technologies

Readers will gain a solid foundation to support further development of processing and manufacturing technologies for the next generation of ceramic materials and systems.

This issue represents one of nine CESP issues published from the 36th ICACC meeting. ICACC is the world′s most prominent international meeting dedicated to advanced structural, functional, and nanoscopic ceramics, composites, and other emerging ceramic materials and technologies. ICACC has been organized each year by The American Ceramic Society and The American Ceramic Society′s Engineering Ceramics Division since 1977.

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Preface vii

Introduction ix

Contribution to the Understanding of the Microstructure of First Generation Si–C–O Fibers 1Francis Teyssandier, Geraldine Puyoo, Stephane Mazerat, Georges Chollon, Rene Pailler, and Florence Babonneau

The Control of Interphases in Carbon and Ceramic Matrix Composites 11Gerard Vignoles, Rene Pailler, and Francis Teyssandier

High Volume Production for High Performance Ceramics 25William J. Walker, Jr.

Low Pressure Injection Molding of Advanced Ceramic Components with Complex Shapes for Mass Production 35Eugene Medvedovski and Michael Peltsman

Ceramic Injection Molding Using a Partially Water–Soluble Binder System: Effect of Back–Bone Polymers on the Process 53Oxana Weber and Thomas Hanemann

Green–Conscious Ceramic Injection Molding 63Oxana Weber and Thomas Hanemann

Shaping of Large–Sized Sputtering Targets 73Alfred Kaiser

TEM Observation of the Ti Interlayer between SiC Substrates during Diffusion Bonding 81H. Tsuda, S. Mori, M. C. Halbig, and M. Singh

Joining of Alumina by Using of Polymer Blend and Aluminum 91Ken′ichiro Kita, Naoki Kondo, Hideki Kita, and Yasuhisa Izutsu

Diffusion Bonding of Rigid Alumina Pieces using Porous Alumina Interlayers 99Hiroyuki Miyazaki, Mikinori Hotta and Hideki Kita, and Yasuhisa Izutsu

Influence of Joining Pressure and Surface Roughness on Flexural Strength of Joined Boron Carbide Ceramics 105Kiyoto Sekine, Takeshi Kumazawa, Wu–Bian Tian, Hideki Hyuga, and Hideki Kita

Laser Machining of Melt Infiltrated Ceramic Matrix Composite 113D. C. Jarmon, G. Ojard, and D. Brewer

Fabrication of Dendritic Electrodes for Solid Oxide Fuel Cells by using Micro Stereolithography 123Naoki Komori, Satoko Tasaki, and Soshu Kirihara

Ion–Exchange Properties of Nano Zeolite a Prepared by Bead Milling and Post–Milling Recrystallization Method 129Toru Wakihara, Ryuma Ichikawa.Junichi Tatami, Katsutoshi Komeya, Takeshi Meguro

The Role of Milling Liquids in Processing of Metal–Ceramic–Precursor Powders 135Nadja Holstein, Katharina Wiegandt, Florian Holleyn, Jochen Kriegesmann, Michael R. Kunze, Joachim Scholz, and Rolf Janssen

Quantitative Validation of a Multi–Scale Model of Pyrocarbon Chemical Vapor Infiltration from Propane 147G. L. Vignoles, W. Ros, G. Chollon, F. Langlais, and C. Germain

Numerical Analysis of Fracture Behavior in Anisotropic Microstructures 159Hisashi Serizawa, Seigo Tomiyama, Tsuyoshi Hajima, and Hidekazu Murakawa

Author Index 169

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Tatsuki Ohji is a Prime Senior Research Scientist of National Institute of Advanced Industrial Science and Technology (AIST) and a Designated Professor in the Graduate School of Science and Engineering, Meijo University, Japan. He has authored or coauthored more than 330 peer–reviewed papers and 12 book chapters, edited 30 book volumes, chaired or co–chaired more than 30 international conferences and symposia, and hold more than 40 patents. Fellow of the American Association for the Advancement of Science (AAAS), the American Ceramic Society and ASM International, and Academician of the World Academy of Ceramics, he has received numerous awards including ECD Bridge Building Award of the American Ceramic Society, Academic Achievement Award of the Ceramic Society of Japan, IIM Lectureship Award of ASM International, Lee Hsun Lecture Award of IMR Chinese Academy of Sciences, and Distinguished Research Achievement Award of the Japan Society of Powder and Powder Metallurgy.

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