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Polymer Blends and Polymer Composites
In recent years significant progress has been made in many areas of polymer blend and polymer matrix composite science and technology. This volume comprises a selection of refereed papers which cover the state-of-the-art, and predict future trends in polymer blend and composite research; including established, as well as innovative, applications and new directions for these novel materials. The contents are grouped into five sections: theoretical and experimental studies of manufacturing processes; structure-property relationships; damage mechanics and characterization; fracture and fatigue; and toughening and strengthening mechanisms. The articles present detailed results and new findings concerning these topics. Alltogether they present an authoritative view of recent research in the important fields of polymer blend and composite use. 1. Processing and Manufacturing. 2. Structure-Property Relationships. 3. Damage Mechanics and Characterization. 4. Fracture and Fatigue. 5. Toughening and Strengthening Mechanisms.
Cluster Assembled Materials
It is now some 15 years since atomic clusters were first produced and investigated in laboratories. Since then, knowledge concerning clusters has enjoyed rapid and sustained growth, and cluster research has become a new branch of science.
Bioceramics
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Advances in Fracture and Failure Prevention
The Far East and Oceanic Fracture Society (FEOFS) and the Center for Physics and Chemistry of Fracture and Failure Prevention (PCFP) jointly organized as a series pair of each conference, FEOFS 2003 and 2nd ICPCF, on October 20-22 at Tohoku University, Sendai, Japan.
Fracture of Materials
The proceedings included overviews and recent investigations related to advanced structural metallic, ceramic and composite materials. The topics included innovative processing, phase transformations, mechanical properties and the relationships between processing, microstructure and mechanical behavior.
Composite Materials IV
Composite materials have been at the center of research and development, in the materials community, for decades. The concept of combining metals, ceramics and polymers of various types, shapes and properties into a single composite material having properties that none of the constituents can themselves exhibit, has provided endless scope for human beings to invent. It has therefore stimulated numerous research and development efforts, and many applications. However, in spite of the advantages of composite materials, many underlying problems arising from the complexity of the systems have greatly hindered them from being the major players that they should be in our daily lives. Needless to say, the challenges presented to the composite materials community have been the driving force for organizing composite materials conferences, including the Cross-Strait ones.
Euro Ceramics ...
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