Nanoparticle Bonding Technology for Composite Materials

Makio Naito; Hiroya Abe; Kazuyoshi Sato

doi:10.4028/www.scientific.net/AST.45.1704

Paper Titles

Influence of Grain Size Distribution on Hardness and Fracture Toughness of Si₃N₄/SiC Nanocomposites
p.1680

In Situ Investigation of Debinding of Non-Oxide Ceramic
p.1684

Polarization Light Optical Texture Analysis for the Structural Characterization of CIM Components
p.1690

Processing and Sintering of Alumina-YAG Nanocomposites
p.1696

Nanoparticle Bonding Technology for Composite Materials
p.1704

Advances in Ultrasonic Assisted Grinding of Ceramic Materials
p.1711

Sintering of Dense Silicon Nitride Ceramics at Low Temperature
p.1717

Development of CNT-Silicon Nitrides with Improved Mechanical and Electrical Properties
p.1723

Light Weight Ceramic Armor - Influence of Processing on Ballistic Performance
p.1729

HomeAdvances in Science and TechnologyAdvances in Science and Technology Vol. 45Nanoparticle Bonding Technology for Composite...

Nanoparticle Bonding Technology for Composite Materials

Abstract:

Nanoparticle bonding technology can present a promising method for nano/micro structural controls of composite particles as well as composite materials. The nanoparticle bonding can be well conducted by making use of the unique properties of nanoparticle surface at lower temperature without any binder in dry phase. In this paper, the concept of nanoparticle bonding technology is introduced. The examples of nano/micro structural controls of particles including composite particles and the composite materials are shown.